KR101427764B1 - a solar truss using a multi-joint - Google Patents

Abstract

The present invention relates to a solar truss using a multi-joint. A joint to connect a plurality of pipes in the horizontal direction or in an up-down inclined direction from the horizontal direction includes: a fixing plate (100) which has a central hole (110) penetrating from the top to the bottom; a combination hole (200) of which, after the end parts of a plurality of horizontal pipes are placed on the bottom surface of the fixing plate (100) and the horizontal pipes are overlapped in the up-down direction, the screw part (240) passes through the end parts of the horizontal pipes and the central hole (110) and is screw-combined to a nut (260) placed on the top surface of the fixing plate (100) while the head part (220) is supported at the lowest part of the horizontal pipes; and a connection plate (300) which stands on the top surface of the fixing plate (100) and includes a plurality of connection holes (320) having an upward inclination angle in the inclination direction along the circumferential surface. By making a truss structure by connecting and fixing pipes to a multi-joint, the present invention is able to easily install a solar module frame in a building as well as on the ground.

Description

A solar truss using a multi-joint < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar truss for fixing a solar module frame, and more particularly, to a solar truss for fixing a solar module frame, The present invention relates to a solar truss using a multi-joint joint in which a structure is formed in a regulated state so that the structure can be easily assembled and maintained by its structural stability and simplicity of installation.

Generally, a truss structure is a structure in which a plurality of pipes are connected to each other in a vertical, horizontal and inclined state, and a plurality of pipes are connected through a joint joint to form a truss structure.

A typical connecting joint applied to a truss structure is made of a spherical body, and the end of the pipe is connected and fixed to the body.

A structure using a conventional joint is disclosed in Patent Registration No. 10-0983456 (issued on September 24, 2010), and an integrated solar system for photovoltaic power generation has been proposed.

This is an integrated solar system for solar power generation, comprising: a plurality of space frames for fixing and supporting a plurality of solar cell modules having a predetermined standard; And a plurality of space frames connected to the plurality of space frames, the connection ports being used at the nodes of the members constituting the integrated solar cell system, and the cross-shaped stop feeds connected to the connection ports for fixing and mounting the corner portions of the plurality of solar modules. Wow; And a solar cell module fixedly supported on the plurality of space frames and the cruciform stoppage and having a folded frame; In addition, the plurality of solar cell modules may include a bolt member that is fixedly mounted on the cruciform stoppage, and then integrally connected to the space frame.

It is easy to install and dismantle the solar cell module, to improve the work efficiency of the operator in a narrow space, and to reduce the high intensity of the structure supporting the solar energy (solar, solar) system, the production cost and the construction cost will be.

However, in the case of the above connector, only vertical and horizontal connection is possible, which is applicable to a rectangular frame structure, but it is difficult to install the frame structure at an oblique angle.

Patent Registration No. 10-0983456 September 24, 2010 Notice

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

SUMMARY OF THE INVENTION [0006]

first; The solar module frame that receives sunlight for solar power generation can be easily installed on the ground as well as buildings.

second; The solar module frame can be stably fixed in position via pipe and multi-joint joints.

third; And a plurality of pipes are connected through multiple connection joints, thereby simplifying the assembly, maintenance, and disassembly of the solar truss structure.

According to an aspect of the present invention,
1. A solar truss using a multi-joint joint, comprising: a horizontal and an inclined pipe having a compressed end formed by press-pressing at both longitudinal ends of a hollow, and a screw through hole formed through the compressed end; A vertical plate having a central hole formed therethrough and a vertical hole formed in the vertical hole, a horizontal plate having a horizontal portion and a vertical portion, A screw hole passing through the screw hole and a center hole formed in the overlapped pressed end and screwed to a nut located on the upper surface of the fixing plate in order and a screw hole formed in the upper surface of the fixing plate and having an upward inclination angle, A plurality of connection plates formed on the circumferential surface to form a plurality of connecting members in an oblique direction to which the pressing ends of the connecting members are coupled; A truss having a plurality of the multiple connection joints vertically connected to each other through the horizontal and inclined pipes; And a solar module frame fixed on the upper surface of the truss and arranged with solar modules incident on the surface thereof;
The connecting plate is composed of a first connecting plate and a second connecting plate so that the connecting port is positioned in the front and rear direction and the left and right direction when viewed from the plane with reference to the center of the top surface of the fixing plate,

The first connection plate has a downward coupling groove and the second connection plate has an upward coupling groove. The upward coupling groove is inserted into the downward coupling groove to be "+" Wherein the first and second connection joints are integrally joined to each other.

Therefore,

first; The truss structure is constructed by connecting the pipes to the connecting joints so that the solar module frame can be easily installed on the ground as well as the building.

second; The solar module frame is supported through the inclination angle of the pipe when the truss supports the structure, thereby securing the structural stability.

third; The pipes can be easily installed and dismounted from the multi-joint joints, so that the assembly, maintenance, and disassembly of the solar truss structure can be simplified.

fourth; It is possible to reinforce the strength of the pipe to reduce the pipe outer diameter.

1 is an exploded perspective view showing a multi-joint joint according to a first embodiment of the present invention,
Fig. 2 is a front view of the combined state of Fig. 1,
Fig. 3 is a plan view of Figs. 1 and 2,
FIG. 4 is a view illustrating a truss structure using a multi-joint joint according to a first embodiment of the present invention. FIG.
FIG. 5 is a schematic view showing a state in which a solar module is installed in a truss structure according to a second embodiment of the present invention. FIG.
6 is a principal perspective view of FIG. 5,
FIG. 7 is a perspective view showing a pipe in FIG. 6,
8 shows another embodiment of Fig. 7,
9 is a sectional view taken along the line "AA" in Fig.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention. do.

≪ Embodiment 1 >

The present invention relates to a multi-joint joint for connecting a plurality of pipes in a horizontal direction and an oblique direction, as shown in Figs. 1 to 4. Fig.

The multi-joint joint is for fixing the end of the pipe to form a truss structure. The multi-joint joint comprises a fixing plate 100, a fastener 200 for fixing the pipe end to the fixing plate 100, (Not shown).

The fixing plate 100 has a circular or polygonal plate shape, and is formed of a metal or a synthetic resin material, and has a center hole 110 penetrating vertically at its center.

The fastener 200 includes a head 220 and a nut 240 having one end connected to the head 220 and a nut 260 fastened to the screw 240, The screw part 240 passes upward through the center hole 110 of the fixing plate 100 and is fastened with the nut 260.

That is, the end of the pipe is vertically overlapped with the center of the fixing plate 100, and is fixed to the fixing plate 100 through the fixing hole 200 in a state of being horizontally and symmetrically symmetrical.

The pipe has a compression end 420 formed by pressing both ends of the body through a press forming device to take a plate shape and a screw through hole 424 penetrating up and down is formed in the compression end 420 . As a result, the body takes a circular or polygonal shape, and both ends have a rectangular plate-like structure.

In addition, the pipe has a strength reinforcing groove 460 bent outwardly along the longitudinal direction thereof, and at least one or more strength reinforcing grooves 460 are formed along the circumference to reinforce the strength.

In this case, when the pressing end 420 is in close contact with the bottom surface of the fixing plate 100, it can be elastically coupled to the spring washer when fastened through the fastener 200.

The connecting plate 300 is for connecting the pipes in an oblique direction and a plurality of oblique connecting holes 320 are formed on the upper surface of the fixing plate 100 and have upward inclination angles along the circumferential surface .

The connecting hole 320 is formed with a screw hole 324 for connecting the end of the pipe with a fastening means such as a bolt.

The horizontal pipe 400a and the inclined pipe 400b are referred to as an inclined pipe 400b when the pipe is horizontally positioned and a inclined pipe 400b when the pipe is inclined at an inclined angle. An end 420 is formed.

In other words, the connection plate 300 is formed such that the connection ports 320 are positioned in the front, rear, left and right directions when viewed from the plane with respect to the center of the upper surface of the fixing plate 100, The first connection plate 300a has a downward coupling groove 340a and the second connection plate 300b has an upward coupling groove 340b so that the downward coupling groove 340a And the lower ends thereof are integrally coupled to the fixing plate 100 in a mutually engaged state.

The process of manufacturing and assembling the multi-joint according to the present invention will now be described.

In manufacturing,

1, a center hole 110 is formed at the center of a circular or polygonal fixed plate 100 as shown in FIG. 1, and a connecting plate 300 is formed on the upper surface of the fixed plate 100 by a "+" "And then integrally joined.

When connecting to the horizontal and inclined pipes 400a and 400b,

The screw hole 424 of the compressed end 420 formed at the end of the horizontal pipe 400a is positioned in the center hole 110 formed in the bottom surface of the fixing plate 100 as shown in Figures 1 to 3, When the head 220 of the sphere 200 supports the squeezed end 420 and then the threaded portion 240 is passed through the center hole 110 to couple the nut 260, (Not shown).

When a plurality of horizontal pipes 400a are positioned horizontally in the shape of "-", "+", and radially around the center hole 110 as described above, The compressed end 420 may be positioned in a plurality of upper and lower layers and then fixed to the fixing plate 100 through the fastener 200.

When the compression end 420 formed at the end of the inclined pipe 400b is fixed to the connection port 320 of the connection plate 300 disposed on the upper surface of the fixed plate 100, the inclined pipe 400b Is fixed in position in an inclined direction.

When a plurality of the above-mentioned multiple connection joints are positioned and then the horizontal and tilted pipes 400a and 400b are connected to each other, a truss structure in the form of a steel frame structure is formed as shown in FIG.

≪ Embodiment 2 >

The present invention is for forming a solar truss structure for fixing a solar module through a multi-joint joint according to the first embodiment, as shown in Figs. 6 and 7.

In the description of the second embodiment, the same reference numerals are applied to the same parts as those in the first embodiment, and a detailed description of the overlapping parts will be omitted.

The present invention relates to a pipe connection structure, comprising: a pipe formed with press-formed ends 420 pressed at both ends thereof; a multi-joint joint for connecting the pipe in the horizontal direction and the oblique direction; And a solar module frame 700 positioned on the upper surface of the truss 600 and generating solar light.

The pipe is referred to as a horizontal pipe 400a when positioned horizontally relative to the ground, and a sloped pipe 400b when positioned in an inclined direction (see Figure 6).

The pipe has a press-fit end 420 press-fitted at both ends in the longitudinal direction of the hollow, and a screw-through hole 424 is formed through the press-fit end 420.

The multidirectional joint is the same as the first embodiment except that the clamping end 420 of the horizontal pipe 400a is positioned on the bottom surface of the fixing plate 100 with the center hole 110 formed therein, The horizontal pipes 400a are horizontally positioned so that the respective compression ends 420 are positioned so as to be vertically overlapped with each other and then the head part 220 is supported by the lowermost compression end 420, Is fastened to a nut 260 which is sequentially passed through the screw hole 424 formed in the pressing end 420 and the center hole 110 and is screwed to the nut 260 located on the upper surface of the fixing plate 100, And a connection plate 300 which is formed on the upper surface of the fixing plate 100 and forms a plurality of connection holes 320 in an oblique direction along the circumferential surface so that the compression ends 420 of the horizontal pipe 400b having an upward inclination angle are engaged, ).

In the truss 600, a plurality of the multiple connection joints are vertically positioned and connected to each other through the horizontal and slant pipes 400a and 400b so that the upper surface forms a smooth surface.

As shown in FIG. 5, the solar module frame 700 is fixed on the upper surface of the truss 600, and modules for receiving sunlight are arranged on the surface.

The pipe is the same as that of the first embodiment. As shown in FIG. 7, both ends of the body are pressed through the press-forming apparatus to form a pressed end 420 having a plate-like shape, A screw through hole 424 penetrating upward and downward is formed. As a result, the body takes a circular or polygonal shape, and both ends have a rectangular plate-like structure.

As shown in FIGS. 8 and 9, the pipe has a strength reinforcing groove 460 bent along the longitudinal direction thereof. At least one or more strength reinforcing grooves 460 are formed along the circumference of the pipe, . That is, it prevents bending deformation applied to the pipe.

In FIG. 5, reference numeral 900 denotes a column, and the column 900 is fixed to the floor or the foundation structure at the lower end thereof, and the upper end thereof is connected to the bottom of the fixing plate 100, And is fixed to any one of the fastener 200 for fixing, and the compression end 200.

In this case, the inclination angle of the truss 600 can be adjusted by adjusting the length of the strut 900.

100: fixing plate 110: center hole
200: fastener
220: Head part 240: Screw part
260: Nut
300: connection plate
300a: first connecting plate 300b: second connecting plate
320: Connector 322: Thread through hole
340a: downward coupling groove 340b: upward coupling groove
400a: Horizontal pipe 400b: Inclined pipe
460: strength reinforcement groove
600: truss
700: Solar module frame

Claims (5)

delete In a solar truss using multi-joints,
A horizontal and an inclined pipe 400a (400b) having a compressed end (420) formed by press-pressing at both ends in the longitudinal direction of the hollow and formed with a threaded hole (424) through the compressed end (420);
A pressing plate 420 having a center hole 110 penetrating through the top and bottom of the fixing plate 100 and a pressing end 420 of the horizontal and tilted pipes 400a and 400b on the bottom surface of the fixing plate 100, A threaded hole 424 formed in the compressed end 420 where the threaded portion 240 is vertically overlapped with the center hole 110 is formed in a state where the head portion 220 is supported by the lowermost pressed end 420, The fixing plate 100 includes a fixing plate 200 and a fixing plate 100. The fixing plate 100 is fixed to the upper surface of the fixing plate 100 and is screwed to the nut 260. The fixing plate 100 has an upward inclination angle, (400a) and (400b) formed on the circumferential surface of the connecting plate (300), the connecting plate (300) forming a plurality of oblique connecting ports (320)
A truss 600 having a plurality of the multiple connection joints vertically connected to each other through the horizontal and slant pipes 400a and 400b;
And a solar module frame (700) fixedly positioned on the upper surface of the truss (600) and arranged with modules for receiving sunlight on its surface;
The connecting plate 320 of the connecting plate 300 is positioned in the front and rear direction and in the left and right direction when viewed from the plane with reference to the center of the top surface of the fixing plate 100. The first connecting plate 300a and the second connecting plate 300b,
A downward coupling groove 340a is formed in the first coupling plate 300a and an upward coupling groove 340b is formed in the second coupling plate 300b so that the upward coupling groove 340b is formed in the downward coupling groove 340a, And the lower ends of the solar trusses are integrally joined to the fixing plate 100 in a mutually engaged state.
delete delete The method of claim 2,
Wherein a strength reinforcement groove (460) is formed on an outer side of the horizontal pipe (400a) or the inclined pipe (400b) along the longitudinal direction.

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