KR102510628B1 - Assembly structure of geodesic dome cover - Google Patents

Abstract

The present invention relates to an assembly structure of a geodesic dome cover, and more specifically, to an assembly structure of a geodesic dome cover, which comprises: a plurality of pipe struts (150) which provide excellent two structural functions of the secondary inertia moment and torsion, and are configured in a square shape to be easily designed and manufactured; a plurality of connectors (140) which are respectively assembled at both ends of the pipe struts (150) and are connected to gussets (130); the pair of gussets (130) which are vertically provided in plural, are respectively assembled at the upper and lower ends of the connectors (140) and have a plurality of fastening holes (131) formed at a uniform interval; a plurality of gusset covers (120) which are assembled at the upper end of the gussets (130) to protect components; and a plurality of covers (110) which are individually assembled at the upper end of each pipe strut (150). Therefore, according to the present invention, during the process in which the dome cover is assembled, the structural performance, assemblability, durability, airtightness and watertightness may be increased, and the construction period may be reduced. Consequently, the product quality and reliability of the dome cover may be significantly improved.

Description

Assembly structure of geodesic dome cover

Embodiments of the present invention relate to the assembly structure of a geodesic dome cover, and more particularly, to improve structural performance, assemblability, air-reduction, durability, airtightness and watertightness in the process of assembling a dome cover. This is to greatly improve the quality and reliability of the dome cover.

As is well known, a geodesic dome is one of the dome types based on a truss structure in which spherical division is performed using straight members of the same length as much as possible.

The structure is a dome with a truss structure in which a sphere is divided using straight members of the same length, and a dome composed by dividing a sphere into a number of elements at regular intervals and combining them. A lot of things. There is a brace dome method and a unit element method. It is also called geodesic dome.

Construction can be done with an infinity dome composed of the geometric theory invented by Buckminstapler, or with a lattice-shaped dome made by combining straight-shaped lightweight members with exactly the same shape.

The prior art geodesic dome, which is useful as described above, also has the following problems.

That is, in the structure of the prior art, since the shear force bonding is performed through the gusset, a great problem arises in that the thickness or size of the gusset must be greatly increased.

In particular, in the prior art, in order to apply a truss system and other composite structural systems, a complex work process is required for the gusset part, and a lot of welding work is required, so strict weld inspection is required due to joint defects, and also according to the type of joint There was a problem of having to configure a separate bonding bracket to enable this.

In addition, the cover of the prior art has a problem that forced bending must be performed by giving an arbitrary angle in the mold.

In addition, since the prior art forcibly angled the cover and assembled it, there was a problem in that damage occurred to the product.

In addition, the prior art has a problem in that the flange width must be maintained at least 100 to 120 mm for bolt/nut assembly on the flange portion.

And the prior art has a problem of the structure inevitably causing damage to the product during the assembly process.

Finally, in the prior art, a great problem in that airtightness and watertightness is lowered due to the above problems has occurred.

In order to solve the above problems, the following prior art documents have been developed in the prior art, but there is still a big problem that the problems of the prior art cannot be solved at once.

Republic of Korea Patent Registration No. 2114296 (2020. 05. 18) has been registered. Republic of Korea Patent Registration No. 1310327 (2013. 09. 12) has been registered. Republic of Korea Patent Registration No. 2354903 (2022. 01. 19) has been registered. Republic of Korea Patent Publication No. 2022-0003415 (2022. 01. 10) has been published. Republic of Korea Utility Model Registration No. 0316788 (2003. 06. 05) has been registered.

The present invention was devised to solve all the problems of the prior art as described above, and the dome cover has a cover, a gusset cover, a gusset, a connector, a pipe strut, an upper strut, a lower strut, a support strut, a connecting bolt and a hinge bolt. The first object is to be, and the second object of the present invention according to the above technical configuration is that the strut of the dome cover has a rectangular structure, so that both the secondary moment of inertia and the torsion have excellent structural performance, and above all, design and manufacture The third purpose is that the strut of the dome cover has a square structure so that the web part can be joined to the side without flange bonding, so there is no need to increase the size of the canister. The fourth purpose The silver square strut structure uses hinge bolts so that separate brackets are not required and bonding is possible according to each side of the box structure. The fifth purpose is to make the cover into a desired shape by extrusion and Since it is a method of producing by cutting, productivity and manufacturing are easy, and welding is not required by extruding into a desired shape, and there is an advantage that forced bending of the cover is not required. The seventh purpose is to reduce the size of the gusset because the square strut can reduce the flange width to 50mm, so the size of the gusset cover as well as the quantity of the gusset can be reduced, so that confidentiality and The eighth purpose is to make the product superior in durability compared to other products because no damage occurs during the assembly process, and the ninth purpose is to improve airtightness and watertightness due to the above technical effects. The tenth object is to provide an assembly structure of a geodesic dome cover that can significantly improve the quality and reliability of the dome cover.

In order to achieve this object, the present invention relates to an assembly structure of a geodesic dome cover, which has excellent secondary moment of inertia and torsion structural performance, and a plurality of pipe struts made of a square shape to facilitate design and manufacture: both ends of the pipe strut A plurality of connectors assembled to each and connected to the gusset; A plurality of upper and lower pairs of gussets assembled at the upper and lower ends of the connector and having a plurality of fastening holes at regular intervals; A plurality of gusset covers assembled on top of the gusset to protect parts; and a plurality of covers assembled and installed on top of each pipe strut.

As described above, the present invention is such that the dome cover is provided with a cover, a gusset cover, a gusset, a connector, a pipe strut, an upper strut, a lower strut, a support strut, a connecting bolt, and a hinge bolt.

In the present invention according to the above technical configuration, the strut of the dome cover has a rectangular structure, so that both the secondary moment of inertia and the torsion have excellent structural performance, and above all, have the advantage of being easy to design and manufacture.

In addition, in the present invention, the strut of the dome cover has a rectangular structure, so that the web part can be joined to the side without flange bonding, so that the size of the gusset does not need to be increased.

In addition, the square strut structure of the present invention uses hinge bolts so that separate brackets are not required and bonding is possible according to each side of the box structure.

In addition, since the present invention is a method of producing a cover by extruding it into a desired shape and cutting it to a desired length, productivity and manufacturing are easy, and welding is not required by extruding into a desired shape, so that there is no need for forced bending of the cover. it did

In addition, the present invention allows the cover to be angled in each direction so that problems in the assembly process can be cured.

In particular, in the present invention, since the square strut can reduce the flange width to 50 mm, the size of the gusset can be reduced, so that the size of the gusset cover as well as the quantity of the gusset can be reduced, so that it is advantageous in airtightness and watertightness.

In addition, the present invention is designed to have excellent durability compared to other products because damage does not occur during the assembly process of the product.

In addition, the present invention is to improve airtightness and watertightness due to the above technical effects.

The present invention is a very useful invention that can greatly improve the quality and reliability of the dome cover due to the above effects.

Hereinafter, a preferred embodiment of the present invention for achieving these effects will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing the assembly structure of a geodesic dome cover applied to the present invention.
Figure 2 is a combined state showing the assembly structure of the geodesic dome cover applied to the present invention
trial.
3 is a partial perspective view showing a pipe strut and a gusset applied to the present invention;
4 is a partial perspective view showing a pipe strut and a connector applied to the present invention;
5 is a state in which pipe struts are radially connected to the gusset applied to the present invention
A floor plan showing.
6 is a state in which pipe struts are radially connected to the gusset applied to the present invention
front view showing.
7 is a configuration diagram showing a composite structure system using struts applied to the present invention.
Fig. 8 is a partial side cross-sectional view of Fig. 7;
9 is a configuration diagram showing various shapes of struts applied to the present invention.
10 is a picture of an actual product of a geodesic dome cover applied to the present invention.
11 is an exploded perspective view of another embodiment of a pipe strut and a connector applied to the present invention;
do.

The assembly structure of the geodesic dome cover applied to the present invention is configured as shown in FIGS. 1 to 11.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the terms to be described later are terms set in consideration of functions in the present invention, which may vary according to the intention or custom of the producer, so the definitions should be made based on the contents throughout this specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings.

First, the present invention relates to the assembly structure of the geodesic dome cover 100 and is configured as follows.

That is, the present invention is excellent in both the secondary moment of inertia and torsion structural performance, and is provided with a plurality of pipe struts 150 made of a square shape to facilitate design and manufacture.

At this time, since the pipe strut 150 can be bonded to the web portion of the side surface without flange bonding, it is preferable to configure the gusset so that there is no need to increase the size.

In addition, in the present invention, a plurality of connectors 140 are provided to be assembled at both ends of the pipe strut 150 and connected to the gusset 130.

In addition, in the present invention, a plurality of upper and lower pairs of gussets 130 are provided, which are assembled at the upper and lower ends of the connector 140 and have a plurality of fastening holes 131 formed at regular intervals.

At this time, it is preferable that the shape of the gusset 130 is formed in a disk shape, and a fastening hole 131 is formed around the inner circumference so that the fastening hole 170 is fastened. In particular, the fastening hole 131 is preferably formed radially. .

In addition, in the present invention, a plurality of gusset covers 120 are provided to protect components by being assembled on the top of the gusset 130.

In addition, the present invention provides an assembly structure of a geodesic dome cover having a plurality of covers 110 each assembled and installed on the top of each pipe strut 150.

In particular, fastening holes 151 are provided at both ends of the pipe strut 150 applied to the present invention, respectively.

In addition, the present invention is assembled to the fastening hole 151, and is provided with a connecting bolt 160 having threaded portions to fasten nuts at both ends.

In addition, the present invention is provided with a pair of hinge bolts 165 that are rotatably assembled to the connection bolt 160 and have a threaded portion to have a nut inserted into the front end.

In addition, the present invention has a connector 140 in which fastening holes 142 are formed at both ends of the flat plate 141 so that the hinge bolt 165 is inserted, and fastening holes 144 are formed so that the fastener 170 is inserted. are provided

At this time, between the flat plate 141 and the fastening hole 144, a protruding extension part 143 is provided to easily fasten the nut to the hinge bolt 165 and to maintain a constant distance from the gusset 130. is preferably formed.

Further, it is preferable that the fasteners 170 are fastened to each of the fastening holes 131 of the upper and lower gussets 130 and the fastening holes 144 of the connector 140 to be assembled.

The head of the hinge bolt 165 applied to the present invention is made of a circular ball 166, and a ball insertion groove 161 is formed in the connection bolt 160 so that the ball 166 is inserted to insert the hinge bolt 165. Of course, it can be used by adjusting it at various angles.

On the other hand, as shown in FIG. 9, a fastening groove 153 for fixing a gasket 155 is formed at the center of the upper end of the pipe strut 150 applied to the present invention, and gaskets 155 are formed on both sides of the fastening groove. A seating groove 152 is formed so as to be seated, and a cover 110 is provided on both seating grooves around the fastening groove 153, respectively.

On the other hand, as shown in FIG. 7, the present invention includes the pipe strut 150 as an upper strut 150a, a lower strut 150b, and a support strut 150c, but the upper strut 150a and the lower strut ( A pair of supporting struts 150c are assembled in a triangular shape between 150b) to provide an assembly structure of a geodesic dome cover to create a three-dimensional large-space building.

At this time, it is preferable that the top strut 150a, the bottom strut 150b, and the support strut 150c including the pipe strut 150 are formed in a quadrangular shape, a circular shape, or a polygonal shape.

In particular, in the present invention, the extruded material 180 is connected to the lower end of the upper strut 150a by a connecting bolt 160 and a hinge bolt 165, and brackets 185 protrude from both sides of the upper end of the lower strut 150b. And, the support strut 150c is assembled between the two brackets 185 centering on the extrusion member 180, the upper end of the support strut 150c is connected to the upper hinge 181, and the lower end of the support strut 150c Provides an assembly structure of the geodesic dome cover connected by the lower hinge 182.

Meanwhile, the present invention may be variously modified and take various forms in applying the above components.

And it should be understood that the present invention is not limited to the particular forms mentioned in the above detailed description, but rather includes all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. should be understood as

The effect of the assembly structure of the geodesic dome cover of the present invention configured as described above is as follows.

First of all, the present invention is to improve structural performance, assembly, air reduction, durability, airtightness and watertightness in the process of assembling a dome cover.

1 applied to the present invention for this purpose is an exploded perspective view showing the assembly structure of the geodesic dome cover 100, a state in which the pipe strut 150, the gusset 130, and the gusset cover 120 and the cover 110 are separated will show

And Figure 2 is a perspective view showing the assembly structure of the geodesic dome cover 100 applied to the present invention, a state in which the pipe strut 150, the gusset 130, and the gusset cover 120 and the cover 110 are combined will show

3 shows a partial perspective view of the pipe strut 150 and the gusset 130 applied to the present invention.

And Figure 4 shows a partial perspective view of the pipe strut 150 and the connector 140 applied to the present invention.

5 is a plan view showing a state in which the pipe struts 150 are radially connected to the gusset 130 applied to the present invention.

And Figure 6 shows a front view showing a state in which the pipe strut 150 is radially connected to the gusset 130 applied to the present invention.

Hereinafter, the operational effects of the present invention described above will be described in more detail.

First, as shown in FIG. 4, after inserting a pair of hinge bolts 165 on both sides of the connecting bolt 160, the connecting bolts 160 are fastened through holes 151 formed at both inner ends of the pipe strut 150. ), and then fasten nuts to both ends of the connecting bolts 160 to fix the connecting bolts to the pipe struts.

Subsequently, the plate 141 of the connector 140 is assembled so as to come into contact with both ends of the pipe strut 150, the hinge bolt 165 is inserted into the fastening hole 142 of the plate 141, and then the hinge bolt A nut is fastened to fix the connector 140 to both ends of the pipe strut 150.

At this time, as shown in FIGS. 4 and 6, the hinge bolt 165 rotates around the connection bolt 160, and as a result, it is possible to assemble the angle of the pipe strut 150 according to the shape. The above shows that the pipe strut 150 is installed inclined at about 5 degrees.

In addition, in the hinge bolt 165, as shown in some drawings of FIG. 4, the ball 166 of the hinge bolt 165 can rotate at various angles around the ball insertion groove 161 of the connection bolt 160. Of course, this makes it easier to assemble.

Then, after positioning a pair of gussets 130 at the upper and lower ends of the connector 140, the fasteners 170 and nuts are placed in the fastening holes 144 of the connector 140 and the fastening holes 131 of the gusset 130, respectively. are tightened to fix each other.

According to the present invention, the geodesic dome cover 100 can be installed by continuously assembling and installing a plurality of pipe struts 150 radially around the gusset 130.

Subsequently, the gusset cover 120 is assembled on top of the assembled parts, and the cover 110 is assembled between the gusset covers 120 and the gusset covers 120 to complete the geodesic dome cover 100 will do

Meanwhile, FIG. 7 is a configuration diagram showing a composite structure system using struts applied to the present invention, and FIG. 8 is a partial side cross-sectional view of FIG. 7 .

And Figure 9 shows a configuration diagram showing various shapes of struts applied to the present invention, including the pipe strut 150, the upper strut (150a), the lower strut (150b) and the supporting strut (150c) are square or circular Or preferably made of a polygon. At this time, the present invention fastens the gasket 155 to the fastening groove 153 formed at the top of the strut, and allows the gasket 155 to be seated in the seating groove 152 formed on both sides of the fastening groove, and the gasket 155 ) is to firmly fix the cover 110.

On the other hand, the present invention as described above is described in more detail as another embodiment of the present invention as follows.

First, the present invention assembles a pair of support struts (150c) between the upper string strut (150a) and the lower string strut (150b), but the extruded member 180 provided at the lower end of the upper string strut (150a) and the lower string strut (150b) ) In assembling the support strut 150c to the bracket 185 provided at the top, the upper hinge 181 is assembled to the extruded material 180, and the lower hinge 182 is assembled to the bracket 185, so that the upper and lower It is possible to assemble and install the triangular support strut 150c between the struts. At this time, the angle of the triangular shape is about 31 degrees, but the angle can of course be adjusted according to the situation in the field.

When assembled as described above, it is possible to make the geodesic dome cover 100 into a three-dimensional large-space building.

Finally, FIG. 10 applied to the present invention is a picture of an actual product of the geodesic dome cover 100 applied to the present invention. It is a product made to be applied to the actual site and is receiving a lot of response in the field.

Meanwhile, FIG. 11 applied to the present invention is an exploded perspective view of another embodiment of the pipe strut 150a and the connector 140a applied to the present invention. However, the fastening hole 151a is formed on the vertical surface.

In addition, a pair of connection plates 145 are formed on one side of the flat plate 141 of the connector 140a to be inserted into both vertical surfaces, and the connection plate has a fastening hole 146 to match with the fastening hole 151a. After forming, a bolt and a nut are fastened to the fastening holes 151a and 146 to fix and install the connector 140a to the pipe strut 150a.

The technology of another embodiment described above allows the connecting plate 145 to be easily fastened to a vertical surface compared to the assembly process of the connecting bolt 160 inserted inside the pipe strut 150, thereby improving assembly work performance. It provides possible effects.

As described above, in the present invention, the strut of the dome cover has a rectangular structure, so that both the secondary moment of inertia and the torsion have excellent structural performance, and above all, it has the advantage of being easy to design and manufacture, and the strut of the dome cover is square Since the web part can be joined to the side without flange joining, it is not necessary to increase the size of the gusset. The square strut structure does not require a separate bracket by using hinge bolts, and the box structure shape is It is made to be bonded according to each surface it has, and because it is a method of producing the cover by extruding it into the desired shape and cutting it to the desired length, productivity and production are easy, and welding is not required by extruding into the desired shape, and the cover It has the advantage of not requiring forced bending of the cover, and provides an effect that allows the cover to be angled in each direction so that problems can be cured in the assembly process.

The technical idea of the assembly structure of the geodesic dome cover of the present invention is that the same result can actually be repeated, and in particular, by implementing the present invention, it can contribute to industrial development by promoting technological development, so it is worth protecting.

<Description of symbols for main parts of drawings>
100: dome cover
110: cover
120: gusset cover
130: Gusset
140: connector
150: pipe strut
150a: upper strut
150b: lower strut
150c: support strut
160: connecting bolt
165: hinge bolt

Claims (5)

Regarding the assembly structure of the geodesic dome cover 100,
A plurality of pipe struts 150 made of a square shape, which have excellent secondary moment of inertia and torsion structural performance and are easy to design and manufacture: each assembled at both ends of the pipe strut 150 and connected to the gusset 130 A plurality of connectors 140; A plurality of upper and lower pairs of gussets 130 each assembled at the upper and lower ends of the connector 140 and having a plurality of fastening holes 131 formed at regular intervals; A plurality of gusset covers 120 assembled on top of the gusset 130 to protect parts; And a plurality of covers 110 each assembled and installed on the top of each pipe strut 150; included,
fastening holes 151 respectively provided at both ends of the pipe strut 150; A connection bolt 160 assembled to the fastening hole 151 and having threaded portions so that nuts are fastened at both ends; A pair of hinge bolts 165 that are rotatably assembled to the connection bolt 160 and have a threaded portion so that a nut is inserted into the front end thereof; And a connector 140 in which fastening holes 142 are formed at both ends of the flat plate 141 so that the hinge bolt 165 is inserted, and fastening holes 144 are formed so that the fastener 170 is inserted. The assembly structure of the geodesic dome cover.
The method of claim 1,
Between the flat plate 141 and the fastening hole 144, a protruding extension part 143 is provided to easily fasten the nut to the hinge bolt 165 and to maintain it at a constant distance from the gusset 130. The assembly structure of the geodesic dome cover, characterized in that it is further formed.
The method of claim 1,
A coupling groove 153 for fixing a gasket 155 is formed at the center of the upper end of the pipe strut 150, and seating grooves 152 for seating the gasket 155 are formed on both sides of the coupling groove, and fastening The assembly structure of the geodesic dome cover, characterized in that the cover 110 is included in both seating grooves centered on the groove 153.
The method of claim 1,
The pipe strut 150,
It is provided with an upper strut (150a), a lower strut (150b) and a support strut (150c),
An assembly structure of a geodesic dome cover, characterized in that a pair of support struts (150c) are assembled in a triangular shape between the upper strut (150a) and the lower strut (150b) to create a three-dimensional structure.
The method of claim 4,
The extruded material 180 is connected to the lower end of the upper strut 150a by a connecting bolt 160 and a hinge bolt 165,
Brackets 185 protrude from both sides of the upper end of the lower strut 150b,
A support strut 150c is assembled between the two brackets 185 centering on the extruded member 180, the upper end of the support strut 150c is connected to the upper hinge 181, and the lower end of the support strut 150c is The assembly structure of the geodesic dome cover, characterized in that it is connected by a hinge (182).

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