KR101147999B1 - Space truss for constructing cubic structure - Google Patents

Abstract

PURPOSE: A space truss for constructing a three-dimensional structure is provided to prevent a linear bolt from becoming separated from a linear sleeve pipe using a linear pin. CONSTITUTION: A space truss for constructing a three-dimensional structure comprises a connector(110), a linear bolt(120), a linear sleeve pipe(130), a cone(140), and a post pipe(150). Multiple screw grooves(112) are formed on the outer surfaces of the connector. The linear bolt is composed of a screw part(122), a shaft part(124), and a head part(126). The screw part is inserted into the insertion grooves of the connector. The shaft part is integrally connected to the screw part. The head part is integrally connected to the shaft part. The linear sleeve pipe is coupled to the shaft part of the linear bolt to reinforce the strength of the linear bolt. The cone is located between the linear bolt and the linear sleeve pipe and has a through hole(142) in which the shaft part is inserted. The post pipe is connected to the cone.

Description

Space truss for constructing cubic structure}

The present invention relates to a three-dimensional structure frame, and more particularly to a space truss used for the construction of the structure.

In recent years, space frames have been widely used in buildings with large internal spaces, such as indoor sports facilities and indoor assembly halls, because the number and location of the columns are limited by the purpose and function of the building.

The space frame is a structure for assembling pillars or walls at the periphery of the structure and supporting the wide span roof based on this. In other words, when other members are installed in a wide span, a large bending moment acts on the members, which makes it difficult to design a cross section. Therefore, a space frame having a curved structure is utilized.

1 illustrates a structure in which a general space frame is used, and FIG. 2 illustrates a structure of a conventional space frame in partial cross-sectional view. According to this, the space frame is largely composed of a joint ball 10 to which the connecting bar 1 and the connecting bar 1 are coupled. That is, as shown in Figure 1, a plurality of connecting bars 1 are connected to one joint ball 10, such a structure is repeated to complete a three-dimensional structure.

More specifically, as shown in FIG. 2, the body 2 of the connection bar 1 has a hollow pipe shape, and cones 3 are provided at both ends of the connection bar 1. The bolt 5 is installed through (3). At this time, the bolt 5 has its head portion 5c facing the inside of the body 2 of the connecting bar 1, the body portion 5a is installed so as to be exposed to the outside through the cone (3).

Looking at the structure of the bolt 5 with reference to Figure 3, the skeleton of the bolt 5 is formed with a cylindrical body portion (5a), a screw thread portion (5b) is formed on a portion of the front end of the body portion (5a) Is formed. And the head part 5c is formed in the part corresponding to the other side of the said threaded part 5b. Reference numeral 5d denotes a pin hole 5d through which the pin 7 to be described below passes.

A portion of the outer circumferential surface of the bolt 5 is wrapped by a sleeve 8, and the sleeve 8 and the bolt 5 are joined by a pin 7. That is, the pin 7 is inserted into the pin hole 5d of the bolt 5 through the pin insertion hole 9 of the sleeve 8, so that the pin 8 is fastened between the sleeve 8 and the bolt 5. .

The threaded portion 5b of the bolt 5 protruding outward of the sleeve 8 is screwed to the joint ball 10. At this time, the joint ball 10 has a substantially spherical shape in which a plurality of fastening grooves 12 are formed around the outer surface. Accordingly, a plurality of bolts 5 may be fastened to the one joint ball 10.

As such, when the connecting bar 1 is connected to the joint ball 10 by the bolt 5, the space frame is completed. Since these space frames must be rigidly constructed to withstand the loads and moments of the other members of the structure, all parts are generally made of metal.

However, as described above, the prior art has the following problems.

The space frame has a large load and moment due to natural phenomena such as wind, snow and rain, as well as the load of the structure itself. The space frame must be firmly designed to withstand such external forces, but in some cases, the bolts in which the stress of the space frame is concentrated may be broken.

In addition, there is a problem that the uni-bolt inserted into the sleeve tube of the space frame is not fixed and rotated or disengaged.

The present invention is to form the inner diameter of the sun sleeve tube is inserted into the sun bolt is provided with a rectangular shaft portion in the shape of a square corresponding to the shaft portion of the sun bolt, the one side of the cone located between the sun bolt and the sun sleeve tube It is an object of the present invention to provide a space truss for constructing a three-dimensional structure by forming a through hole corresponding to the shaft portion to prevent the sun bolt, the sun sleeve tube, and the cone from rotating.

The present invention is a connector formed with a plurality of screw grooves in the body; A sun bolt having a screw portion inserted into a screw groove of the connector, a square shaft portion integrally connected with the screw portion, and a head portion integrally connected with the square shaft portion; A sun sleeve tube having an inner diameter having a quadrangular shape corresponding to an axis of the sun bolt; A cone located between the sun bolt and the sun sleeve tube; And a support tube connected to the cone, wherein one side of the cone is formed with a through hole into which the shaft portion of the sun bolt is inserted, and the through hole has a three-dimensional structure having a rectangular shape corresponding to the shaft portion of the sun bolt. Provide space truss for

A long hole may be formed in the sun bolt shaft portion of the space truss for construction of a three-dimensional structure according to the present invention, and a sun pin insertion hole may be formed in the sun sleeve tube. A sun pin may be further included to prevent rotation and detachment of the inserted sun bolt.

Space truss for three-dimensional structure construction according to the present invention has the following effects.

First, it is possible to prevent the sun bolt inserted into the sun sleeve tube from rotating by making the inner diameter of the sun sleeve tube and the shaft portion of the sun bolt square.

Second, a long hole is formed in the shaft portion of the sun bolt, and a sun pin insertion hole is formed in the sun sleeve tube, so that the sun bolt inserted into the sun sleeve tube by the sun pin can be prevented from being separated.

Third, since the long hole is formed in the rectangular shaft portion of the sun bolt, it is possible to prevent the sun bolt from being damaged by the stress.

1 is a perspective view showing the configuration of a structure using a general space frame.
2 is a cross-sectional view showing the structure of a space frame according to the prior art.
3 is a front view showing a state in which the bolt is broken by the external force acting on the space frame according to the prior art.
Figure 4 is an exploded perspective view showing the configuration of a preferred embodiment of the three-dimensional structure construction truss according to the present invention.
5 is an enlarged perspective view of the sun bolt shown in FIG.
FIG. 6 is a view illustrating a state in which the space truss of FIG. 4 is coupled to a connector when constructing a structure.

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

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as a meaning and a concept corresponding to the technical idea of this invention based on the original idea.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, these can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

4 and 6, the space truss 100 for the three-dimensional structure construction according to an embodiment of the present invention, the connector 110, the sun bolt 120, the sun sleeve tube 130, the cone 140 and the support tube 150 are included.

The connector 110 has an approximately spherical shape, and a plurality of screw grooves 112 are formed along an outer surface thereof. The screw groove 112 has a thread 114 formed on the inner circumferential surface thereof, and is screwed with the threaded portion 122 of the sun bolt 120 to be described below, and the thread 114 formed on the inner circumferential surface of the screw groove 112. ) And the threaded portion 122 of the sun bolt 120 is formed to correspond to each other, it is fastened to each other. The position and number of the screw grooves 112 of the connector 110 may be variously modified according to the design conditions and purposes of the space truss 100 for the three-dimensional structure construction.

The sun bolt 120 is composed of a screw portion 122, the shaft portion 124, and the head 126, the screw portion 122, the shaft portion 124 and the head 126 is formed integrally. do.

The threaded bolt 122, the shaft portion 124, and the head bolt 126 integrally formed with the sun bolt 120 penetrate the through hole 152 of the cone 150 to be described later, and the threaded portion 122 is connected to the connector ( Inserted into the screw groove 112 of the 110 is the sun bolt 120 and the connector 110 is fastened and connected.

The shaft portion 124 of the sun bolt 120 has a rectangular shape. Both ends of the shaft portion 124 are provided with the screw portion 122 and the head 126, respectively. The head 126 is preferably formed to have a larger diameter than the shaft 124.

The body of the sun bolt 120 is formed by a rectangular shaft portion 124. Both ends of the shaft portion 124 are provided with a screw portion 122 and the head 126, respectively. The head portion 126 is formed to have a larger diameter than the shaft portion 124, the head portion 126 is a portion that is hooked to the edge of the through hole 152 of the cone 150, the screw portion 122 ) Is a part that is screwed into the screw groove 112 of the connector 110.

On the shaft portion 124 of the sun bolt 120 is formed a long hole 125 is inserted into the sun pin 160 to be described later. The long hole 125 is formed in a direction perpendicular to the longitudinal direction of the sun bolt 120.

The sun sleeve tube 130 is coupled to the outer circumferential surface of the shaft portion 124 of the sun bolt 120. The sun sleeve tube 130 is coupled to the sun bolt 120 by the sun pin 160, the sun bolt 120 is rotated as the operator rotates the sun sleeve tube 130, the connector ( 110).

The sun sleeve tube 130 serves to reinforce the strength of the sun bolt 120, the inner sleeve 132 through which the shaft portion 124 of the sun bolt 120 passes through the sun sleeve tube 130. ) Is formed, and the inner diameter 132 has a quadrangular shape corresponding to the shaft portion 124 of the sun bolt 120.

Since the inner diameter 132 of the sun sleeve tube 130 and the shaft portion 124 of the sun bolt 120 have a rectangular shape corresponding to each other, the inner diameter 132 of the sun sleeve tube 130 and the sun bolt The outer surface of the shaft portion 124 of the shaft 120 is engaged with each other, and when the sun sleeve tube 130 is rotated, the sun sleeve tube 130 and the sun bolt 120 simultaneously without slip phenomenon Will rotate.

The sun sleeve tube 130 is formed with a sun pin insertion hole 134 in a direction orthogonal to the inner diameter 132 of the sun sleeve tube 130. The sun pin insertion hole 134 is a portion through which the sun pin 160 passes, and is preferably formed at a position corresponding to the long hole 125 of the sun bolt 120.

The long hole 125 of the sun bolt 120 is formed along the longitudinal direction of the shaft portion 124 of the sun bolt 120, which is a worker through the sun pin insertion hole 134 of the long hole of the sun bolt 120 This is to allow the sun pin 160 to be easily inserted into the 125.

The cone 140 is located between the sun bolt 120 and the sun sleeve tube 130, the cone 140, as shown in Figure 4, the center in a ring shape that the cross-sectional area is smaller toward the tip The through hole 142 is formed.

The through hole 142 is formed such that the shaft portion 124 of the sun bolt 120 is inserted into one side of the cone 140, and the through hole 142 is the shaft portion 124 of the sun bolt 120. ) Has a rectangular shape corresponding to

Since the through hole 142 of the cone 140 has a rectangular shape corresponding to the shaft portion 124 of the sun bolt 120, after inserting the sun bolt 120 into the cone 140, When the sun bolt 120 is inserted into the sun sleeve tube 130 and the sun bolt 120 is fastened to the connector 110, the sun bolt 120 is rotated so that the sun bolt 120 rotates. And the cone 140 is rotated together with the sun sleeve tube 130 and is fastened to the connector 110.

The cone 140 is connected to the holding tube 150, the holding tube 150 has a hollow cylindrical shape. A seating portion 152 is formed in the support tube 150 along its longitudinal direction, and the seating portion 152 is fastened to a catching portion 144 formed at one side of the cone 140 to the cone ( 140) and the holding pipe 150 is connected. The support pipe 150 is a part which forms a substantial skeleton of the space truss 100.

As shown in FIG. 5, the cross sectional diameter L1 of the threaded portion 122 of the sun bolt 120 is preferably equal to or slightly smaller than the cross sectional diameter L2 of the shaft portion 124. This is to prevent the screw portion 122 of the sun bolt 120 from being damaged by external force transmitted from the outside, and the cross section diameter L1 of the screw portion 122 and the cross section diameter L2 of the shaft portion 124. This is to ensure that the external force transmitted from the outside is uniformly concentrated on the screw portion 122 and the shaft portion 124 by forming the same).

Accordingly, the inner diameter 132 and the cone 140 of the shaft portion 124 of the sun bolt 120 constituting the space truss 100 and the sun sleeve tube 130 into which the shaft portion 124 of the sun bolt 120 is inserted are inserted. By forming the through hole 142 of the rectangular shape corresponding to each other through the cone 140 and the sun sleeve tube 130 when the sun bolt 120 is fastened with the connector 110, the sun sleeve tube ( Due to the rotation of the 130 and the cone 140 and the sun bolt 120 are rotated together, the convenience of the work is improved, and the long hole 125 and the sun sleeve tube formed on the shaft portion 124 of the sun bolt 120 ( Since the sun pin 160 is inserted into the sun pin insertion hole 134 of the 130, the detachment of the sun bolt 120 inserted into the sun sleeve tube 130 may be prevented.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: space truss 110: connector
112: thread groove 114: thread
120: sun bolt 122: screw portion
124: shaft 125: long hole
126: head 130: sun sleeve tube
132: inner diameter 143: sun pin insertion hole
140: cone 142: through hole
144: catching part 150: holding pipe
152: seating portion 160: sun pin

Claims (3)

A connector having a plurality of screw grooves formed in the body;
A sun bolt having a screw portion inserted into a screw groove of the connector, a square shaft portion integrally connected with the screw portion, and a head portion integrally connected with the square shaft portion;
A sun sleeve tube having an inner diameter having a quadrangular shape corresponding to an axis of the sun bolt;
A cone located between the sun bolt and the sun sleeve tube; And
It includes a holding tube connected to the cone,
One side of the cone is formed through holes through which the shaft portion of the sun bolt is inserted, the through hole is a three-dimensional structure space truss having a rectangular shape corresponding to the shaft portion of the sun bolt.
The method according to claim 1,
A long hole is formed in the shaft portion of the sun bolt, and a sun pin insertion hole is formed in the sun sleeve tube, and a sun pin inserted into the long hole and the sun pin insertion hole to prevent rotation and detachment of the sun bolt inserted into the sun sleeve tube. Space truss for three-dimensional structure construction further comprising.
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