KR100404980B1 - Joint Unit for Truss Structure - Google Patents

Abstract

The present invention allows the plurality of unit trusses forming the truss structure to have a hinge point on the connection portion between them, the joint angle between the unit truss is freely adjusted so that the truss structures of various shapes can be constructed It is about a connection body.

The present invention is used in a truss structure that is constructed by connecting the unit truss formed by combining a plurality of rods in sequence, a pair of rod-shaped body that is fitted to each of the connecting end of the unit trusses and the opposite ends thereof In the joint connector for truss structure comprising a male and female fastener is extended to each other hinged to each other; The rod-shaped body is characterized in that the plurality of insertion holes are drilled along the longitudinal direction to adjust the installation angle through the pin coupling with the fitting hole that is punched in the connecting end of the unit truss.

Description

Joint unit for truss structure

The present invention relates to a connector for allowing a truss structure to have an articulated portion, and more particularly, to allow a plurality of unit trusses forming a truss structure to have hinge points at connection portions thereof. It relates to a joint for the joint so that the connection angle of the liver is freely adjusted so that the truss structure of various shapes can be constructed.

In general, truss structures, which are disassembled and built constructions, are widely used in various performance halls, exhibition halls, or foundation skeletons of prefabricated buildings. Such truss structures are widely used for installing lighting facilities or displaying exhibits.

The truss structure constructed for this purpose includes a fastener formed of a polyhedron or a sphere and forming a plurality of nut grooves (or a tube body having nut grooves) on its surface, and an upper and lower chords detachably coupled to the nut grooves of the fastener. In order to install a plurality of unit trusses sequentially comprising a vertical member and an inclined member connecting the upper and lower chords sequentially.

In other words, in consideration of the size of the performance hall (or exhibition hall) and the load and volume of various facilities attached thereto, a truss structure was constructed by interconnecting an appropriate number of unit trusses.

However, in the conventional unit truss as described above, since the upper and lower chords and the fasteners are connected to each other through bolt coupling, the coupling angle between the upper and the lower chords and the fasteners has to be in a straight line in the vertical or horizontal direction.

In other words, the truss structure constructed by combining the conventional unit trusses as described above was not able to escape the monotonous form consisting of a truss column to be entered and a truss beam connecting the truss column in a straight line.

For this reason, when the truss structure is constructed to have an arcuate or other bent shape, a fastener manufactured to join the upper and lower chords bent at a predetermined angle and the upper and lower chords thus bent should be provided.

That is, in order to construct the truss structures of various shapes, the upper and lower chords and fasteners having different shapes must be provided separately, thereby causing trouble in preparing and moving materials for the construction of the truss structures. The result was a rise in production costs and a complicated production process.

In addition, even if the upper and lower chords and fasteners of various shapes are provided, there are limitations, so the truss structure to be constructed has only a few bent portions in addition to the vertical and horizontal portions, the truss structure of various shapes Could not provide.

The present invention has been made to solve the above problems, by providing a hinge point on the connection portion between the unit truss constituting the truss structure, as the connection angle between the unit truss can be variously converted, the construction truss structure The purpose is to provide a joint connector for the truss structure that can be diversified in appearance to maximize the sense of landscaping.

1 is a perspective view showing a state in which the joint connector of the present invention is installed on the truss structure

Figure 2 is an exploded perspective view showing the structure of the joint in accordance with the present invention

Figure 3 is a cross-sectional view showing the structure of the joint joint according to the present invention

Figure 4 (a) (b) is a side view showing a state in which the unit truss bent at various angles by the joint connector of the present invention

Figure 5 is a use state showing the truss structure to which the joint joint of the present invention is applied

<Explanation of symbols for main parts of drawing>

10,20: unit truss 11,21: upper chord 12,22: lower chord 13,23: vertical member 14,24: inclined member 15,25: fitting hole 30: female fastener 31,41: rod body 31a: groove 32 : Holding piece 33, 43: Insertion hole 34: Elastic ball 40: Male fastener 42: Fitting 44: Locking groove 50: Hinge pin 60: Coupling pin

In order to achieve the above object, the present invention is used in the truss structure to connect the unit truss formed by combining a plurality of rods in sequence, and a pair of rod-shaped bodies are fitted to each of the connection ends of the unit trusses And a joint connector for truss structure including a male and female fastener which is hinged to each other to extend to their opposite ends; The rod-shaped body is characterized in that a plurality of insertion holes are drilled along the longitudinal direction to adjust the installation angle through the pin coupling with the fitting hole which is punched in the connecting end of the unit truss.

The present invention also provides a pair of grip pieces protruding side by side while maintaining a predetermined distance from the end of one rod-shaped body, and the end of the other rod-shaped body in the form of the end is arc-shaped, the grip Comprising a fitting piece inserted between the pieces, a plurality of locking grooves formed in the vertical direction, and locking elastic balls for being selectively fitted into the locking grooves are respectively provided in the contact portion between the arc surface of the fitting piece and the gripping piece, respectively. It is characterized by being installed.

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

1 is an external perspective view showing a state in which the joint connector according to the present invention is installed on the truss structure, Figure 2 is an exploded perspective view showing the structure of the joint connector according to the present invention.

Prior to the description, the truss structure of the present embodiment includes a plurality of vertical members connecting upper and lower chords 11, 12, 21, 22, and upper and lower chords 11, 12, 21, 22 that are arranged in parallel and spaced apart at predetermined intervals ( 13 and 23 and unit trusses 10 and 20 composed of inclined members 14 and 24 provided to be inclined to connect the upper and lower chords 11, 12, 21 and 22 between the vertical members 13 and 23. Note that a typical truss structure constructed by connecting a plurality of sequential examples is taken as an example.

As shown, the joint connector of the present invention applied to the truss structure is composed of the male and female fasteners 30 and 40 which are hinged to be deployed in the vertical direction, the female and female fasteners 30 and 40. ) Is extended from a pair of rod-shaped bodies 31 and 41, which are respectively fitted and coupled to the connection ends between the unit trusses 10 and 20 constituting the truss structure, respectively. It consists of a coupling member that is hinged to each other.

That is, the rod-shaped bodies 31 and 41 are coupled to upper and lower chords 11, 12, 21 and 22 of the unit trusses 10 and 20, and the rod-shaped bodies 31 and 41 are plural along the longitudinal direction thereof. Two insertion holes 33 and 43, and the upper and lower chords 11, 12, 21 and 22 of the unit trusses 10 and 20 which accommodate the rod-shaped bodies 31 and 41 are inserted into the insertion holes 33 and 43, respectively. One or more fitting holes 15 and 25 are drilled to correspond to 43. The rod-shaped bodies 31 and 41 have upper and lower currents 11, 12, 21, while supporting the coupling pins 60 so as to pass through the insertion holes 33 and 43 and the fitting holes 15 and 25 in order. It is fixed to the end of 22).

In addition, the unit trusses 10 and 20 are selectively converted from the plurality of insertion holes 33 and 43 by changing the positions of the pins coupled with the fitting holes 15 and 25 of the unit trusses 10 and 20. It is possible to adjust the withdrawal length of the rod-shaped body (31, 41) to be drawn out of the various.

In addition, the coupling members extending from the pair of rod-like bodies 31 and 41, respectively, hinged to each other may be provided in various structures, which will be described below with reference to the embodiment shown in FIG. .

The coupling member includes a pair of gripping pieces 32 extending in parallel to each other while maintaining a predetermined interval at one end of the rod-shaped body 31, and extending from the end of the other rod-shaped body 41 to hold the pair of gripping pieces. It consists of the fitting piece 42 which fits in between 32, The edge part of the said fitting piece 42 is formed so that it may form the arc-shaped surface 42a.

In addition, a plurality of locking grooves 44 are formed on the arc-shaped surface 42a of the fitting piece 42 at regular intervals along the vertical direction. In addition, a groove 31a is formed in a portion between the gripping piece 32 of the other rod-shaped body 31 which is in surface contact with the arc surface 42a, and an elastic ball for locking into the inside of the groove 31a. 34 is installed, the elastic ball 34 is projected out of the groove 31a by the elastic force is to be selectively fitted to the plurality of locking grooves (44).

Since the connection angle between the male and female fasteners 30 and 40 can be adjusted by the locking groove 44 and the elastic ball 34 as described above, the female and female fasteners 30 and 40 are unit trusses 10 and 20. When combined with the upper and lower chords of the), the bend angle can be easily combined in a preset state.

Thus, the joint angle of the present invention consisting of male and female fasteners is possible to change the connection angle between the unit truss will be described with reference to Figures 4 and 5 the construction of the truss structure in a variety of structures, such as arch. .

In the process of connecting the unit truss in the vertical or horizontal direction, the above-described male and female fasteners are used for a portion to provide a bent portion.

That is, as shown in (a) of FIG. 4, the male and female fasteners 30 and 40 are installed in the upper and lower chords 11, 12, 21, and 22 of the left and right unit trusses 10 and 20 to be connected. First, the male and female fasteners 30 and 40 are fixedly supported on the lower chords 12 and 22 by the coupling pins 60, and the rod-shaped bodies 31 and 41 constituting the female and female fasteners 30 and 40. ) Is installed in a state that completely flows into the lower chord (12, 22).

Then, the other male and female fasteners 30 and 40 are fixedly supported by the coupling pins 60 to the upper chords 11 and 21, and at this time, the other female and female fasteners 30 and 40 are configured. The rod-shaped bodies 31 and 41 are installed in a state in which most of them are drawn out of the upper chords 11 and 21. That is, as shown in the figure, the rod-shaped bodies 31 and 41 are partially inserted into the upper chords 11 and 21 with the three insertion holes 33 and 43 exposed to the outside. will be.

Accordingly, as the length L1 of the hinge pin 50 of the male and female fasteners 30 and 40 coupled to the upper chords 11 and 21 and the tip of the upper chords 11 and 21 becomes longer, As the inclination α of the unit trusses 10 and 20 increases around the hinge pin 50, the unit trusses 10 and 20 on the left and right sides are connected to each other while maintaining a larger bending angle.

In addition, (b) shows another embodiment, and the male and female fasteners 30 and 40 are completely introduced into the lower chords 12 and 22 in the same manner as in the above-described embodiment. In the supported state, the other male and female fasteners 30 and 40 are installed in the upper chords 11 and 21 such that the rod-shaped bodies 31 and 41 are inserted into the upper chords 11 and 21 by only about half. will be. That is, as shown in the figure, the rod-shaped bodies 31 and 41 are inserted into the upper chords 11 and 21 with two insertion holes 33 and 43 exposed to the outside.

Accordingly, as the distance L2 between the hinge pins 50 of the male and female fasteners 30 and 40 coupled to the upper chords 11 and 21 and the ends of the unit trusses 10 and 20 is narrowed. As the inclination β of the unit trusses 10 and 20 decreases around the hinge pin 50, the unit trusses 10 and 20 on the left and right sides are connected to each other while maintaining a smaller bending angle.

In this way, it is possible to change the various installation angles by adjusting the interval between the interconnecting unit trusses (10,20), which makes it possible to produce a variety of appearances of the truss structure at various angles.

In addition, since the extraction length of the male and female fasteners 30 and 40 can be adjusted as described above, it is possible to compensate for assembly tolerances that may occur during the construction of the truss structure.

Figure 5 shows the truss structure bent at various angles by the joint connector of the present invention, the portion shown in the alphabet on the drawing shows the portion bent by the joint connector.

As can be seen by the above embodiment, by the joint connection for the truss structure according to the present invention, it is possible to adjust the installation angle between each unit truss in various ways, various shapes of the construction truss structure The effect of maximizing the landscaping effect is possible.

In addition, since the shape of the truss structure can be produced in various ways through joint joints that are easily coupled to the unit truss, it is not necessary to provide various materials that are formed differently to change the shape of the truss structure, thereby reducing production costs. At the same time the construction work will be made easy.

Claims (2)

Used in truss structures to connect unit trusses formed by combining a plurality of rods in sequence, a pair of rod-shaped bodies that are fitted and coupled to the connection ends of the unit trusses, respectively, and extending to their opposite ends, respectively An articulation connector for truss structure comprising a hinged male and female fastener; The rod-shaped body joint connector for truss structure, characterized in that the plurality of insertion holes are drilled along the longitudinal direction so that the installation angle can be adjusted through pin coupling with the fitting hole drilled in the connecting end of the unit truss. . The method of claim 1, wherein the coupling member, It consists of a pair of gripping pieces protruding side by side while maintaining a predetermined interval at the end of one rod-shaped body, and a fitting piece protruded from the end of the other bar-shaped body in the form of an end thereof is inserted between the gripping pieces, Joints for truss structures, each of which is provided with a plurality of locking grooves formed in the vertical direction, and locking elastic balls selectively inserted into and supported by the locking grooves on the contact portion between the arc surface of the fitting piece and the gripping piece. Connections.