KR200412251Y1 - A solar cell structure - Google Patents

Abstract

The present invention relates to a solar module structure for solar power generation.

The present invention connects the ends of a plurality of pipes to form a plurality of rectangular module frame arrangements "a", "T" and "+" type pipe connector and the light collecting panels arranged on the upper side of the module frame A support structure for a solar module comprising a light collecting panel fixing clamp for fixing to a pipe and a supporting member for allowing the module frame to be installed to be inclined with respect to the ground, wherein the pipes have a square shape of “ㅁ”. Consisting of square pipes of; The pipe connector, the "a" type, "T" type and "+" type of the connector is a pair of upper and lower wrap around the upper and lower surfaces of the respective pipes in a pair to provide a close contact with each other; The condensing panel fixing clamp is bent upward from one end of the close contact portion which is in close contact with the surface of the angular pipe on one side and then bent outward again so that the end of the condensing panel is seated, A lower member for forming a support part by forming a protruding rib so as to be supported on the surface of the angle pipe, and a coupling part which is in close contact with the upper surface of the close contact part with the close contact part and is coupled to the angular pipe through a fastener; And an upper member which is bent upward from one end of the coupling part and then bent outward to form a fixing part which fixes the upper surface of one end of the light collecting panel in a locked state; When the rectangular module frame is inclined, the upper and lower sides are hinged to the support member hinged to the ground through a bracket, and one end is hinged to the ground bracket supporting the upper end, and the other end is the middle portion of the module frame. To be fixed to the ground by an intermediate bar hinged to the ground; The bottom surface of the bracket in close contact with the ground is characterized in that the buffer member is provided.

Therefore, when installing the light collecting panels for solar power, each pipe is connected through pipe connectors to form a module frame, and a plurality of light collecting panels can be easily and stably supported and fixed through clamps. There is.

Solar power, condensing panel, solar power, support device

Description

Solar module structure for solar power generation {A SOLAR CELL STRUCTURE}

1 is a perspective view of a solar module structure for solar power generation according to the present invention,

FIG. 2 is a perspective view illustrating a light collecting panel fixing clamp in FIG. 1;

3 is an exploded perspective view illustrating an enlarged portion "A" in FIG. 2;

4 is a cross-sectional view of the coupling state of FIG.

5 is an exploded perspective view illustrating an enlarged portion “B” in FIG. 2;

6 is a cross-sectional view of the coupled state of FIG.

7 is an exploded perspective view showing the pipe connector in FIG.

7a is a "a" type pipe connector,

7b is a "T" type pipe connector,

7c is a "+" type pipe connector,

Figure 8 is a main part showing a buffer member in an embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: square pipe 200: module frame

300: "A" type pipe connector 400: "T" type pipe connector

500: "+" type pipe end

600: light collecting panel

700: condensing panel fixing clamp

800: support member

900: buffer member

The present invention relates to a photovoltaic power generation system, and more particularly, when installing the light collecting panels for solar power, each pipe is easily connected to each other in the horizontal and vertical direction through the connectors to form a rectangular module frame on the plate, and the upper surface of the module frame. The present invention relates to a solar module structure for solar power generation, in which a light collecting panel is easily and stably arranged through a fixing clamp, and the module frame has a predetermined inclination angle and can be fixed to the ground in a buffered state.

In general, photovoltaic power generation refers to condensing solar light incident on plate-shaped light collecting panels arranged horizontally and vertically to thereby obtain electrical energy.

Recently, the importance of alternative energy is rising due to the depletion of petroleum energy and various kinds of energy or the increase in cost, and for example, a solar power generation system using solar light is required.

Such a photovoltaic power generation system typically includes a solar cell panel that connects the solar panels in parallel and a solar cell panel, a battery that stores the collected power, and a power regulator and cross-flow control to control the power. It is composed of an inverter and the like.

The photovoltaic power generation system as described above is installed on the upper surface of the slab, etc. At this time, the light collecting panels have a predetermined size, and thus, when the light collecting panels are attached to the frame one by one, the task has been difficult, and the arranged light collecting panels are stable. When the solar light should be incident in the state, when wind pressure is generated by the external environment, a vibration phenomenon occurs in the structure, and the collection panel to which the vibration is attached has been easily broken.

In addition, when a vibration force is generated in the frame fixing the light collecting panels, the noise and vibration are transmitted into the building, reducing the noise pollution and the life of the building, and there has been a problem in that the waterproof function is not realized due to crack generation.

The present invention is provided to solve the above problems, an object of the present invention is to make a rectangular module frame that is installed in a state inclined to the ground is connected to the horizontal pipe in the vertical and horizontal direction of the known angle. It is to provide a solar module structure for solar power generation so that the light collecting panels for injecting sunlight on the upper surface of the module frame can be arranged and fixed easily.

In addition, the module frame is fixed to the ground in a buffer state so that when the external pressure is generated that noise and vibration can be absorbed without being transferred into the building.

In order to achieve the above object, the present invention, the "b" type, "T" type and "+" type pipe connector to connect the end of the plurality of pipes so that a plurality of rectangular module frame is arranged and the top of the module frame In the support structure of the solar module comprising a light collecting panel fixing clamp for fixing the light collecting panels arranged on the side to the pipe, and a support member for allowing the module frame to be installed to be inclined with respect to the ground,

The pipes are formed of square pipes having a square shape of "ㅁ"; The pipe connector, the "a" type, "T" type and "+" type of the connector is a pair of upper and lower wrap around the upper and lower surfaces of the respective pipes in a pair to provide a close contact with each other; The condensing panel fixing clamp is bent upward from one end of the close contact portion which is in close contact with the surface of the angular pipe on one side and then bent outward again so that the end of the condensing panel is seated, A lower member forming a support part formed by forming a protruding rib to be supported on the surface of the square pipe, and a coupling part which is in close contact with the upper surface of the close contact portion and is coupled to the angular pipe through a fastener with the close contact portion at the lower end thereof. And an upper member which is bent upward from one end of the part and then bent outward again to form a fixing part which fixes the upper surface of one end of the light collecting panel in a locked state; When the rectangular module frame is inclined, the upper and lower sides are hinged to a support member hinged to the ground through a bracket, one end of which is hinged to the ground bracket supporting the upper end, and the other end to the middle of the module frame. To be fixed to the ground by hinged intermediate bars; The bottom surface of the bracket in close contact with the ground is provided by a cushioning member.

Here, the pipe connector is formed by bending the horizontal portion in close contact with the upper and lower surfaces of the square pipe and the support portion bent from the horizontal portion to support the outer surface of the square pipe.

In addition, the support portion having the protruding ribs is positioned in a left and right pair in a direction opposite to the contact portion of the lower member, and the fixing portion is provided in a pair of left and right directions in a coupling portion of the upper member so as to correspond. It will be possible to fix the light collecting panel at the same time.

Hereinafter, with reference to the accompanying drawings, a solar module structure for solar power according to the present invention will be described in detail.

1 is a perspective view illustrating an installation state of a photovoltaic module structure for solar power generation according to the present invention, and FIGS. 2 to 6 are enlarged or separated from the collecting panel fixing clamp in FIG. 1, and FIG. An embodiment of a pipe connector is shown. 8 is an enlarged view of the ground fixing state of the support member.

1 by the illustration of the present invention has the same shape and each of the pipes having different lengths, and the shape of each of the pipes to vary the shape of the rectangular pipes 100 to form a rectangular frame 200 Pipe connector 300, 400, 500 for fixing the array, the light collecting panel fixing clamp 700 for fixing the light collecting panel 600 to the upper surface of the module frame 200 and the module frame 200 It includes a support member 800 to be installed inclined with respect to the ground.

The square pipe 100 refers to a well-known pipe having a rectangular cross section having a shape of "ㅁ" and varying its length by a certain number so that the module frame 200 is formed with a rectangular border and horizontally therein. Angle pipes 100 are further arranged to perform a support function in the longitudinal direction.

7, the pipe connector is composed of "a" type (Fig. 7a), "T" type (Fig. 7b) and "+" type (Fig. 7c) pipe connector 300, 400, 500 Fixing the angular pipe 100 arranged.

That is, the pipe connector 300, 400, 500 is bent from the horizontal portion 320 and the horizontal portion 320 in close contact with the upper and lower surfaces of the square pipe 100, respectively, of the square pipe 100 The pipe connector 300, 400, 500 is fastened through the fastener 360 in a state in which the support part 340 supporting the outer surface is bent to be in close contact with each of the pipes 100.

2 to 4, the light collecting panel fixing clamp 700 is upwardly contacted from one end of the close contact portion 722 and the close contact portion 722 that are in close contact with the surface of the square pipe 100 on one side. After bending, it is bent outward again to allow the end of the light collecting panel 600 to be seated, and to form a support 724 formed by forming a protruding rib 726 on the bottom thereof to be supported by the surface of the angular pipe. The member 720 and the lower end portion is in close contact with the upper surface of the contact portion 722 is coupled with the contact portion 742 is coupled to the angular pipe 100 through the fastener 730 together with the contact portion 722 and this coupling The upper member 740 is bent upward from one side end of the unit 742 and bent outward to form a fixing unit 744 that fixes the upper surface of one end of the light collecting panel 600 in a locked state.

5 or 6, when the condensing panel 600 is simultaneously coupled to the surface of the respective pipes, the support part having the protruding ribs in the close contact portion 722 of the lower member 720 may be provided. 724 is positioned in a left and right pair in different directions to form a pair of support portions 724 and 724a, and the fixing portion 744 is left and right to the coupling portion 742 of the upper member 740. A pair of fixing parts 744 and 744a are provided in different directions so that the light collecting panel 600 can be simultaneously fixed while being coupled to the angle pipe 100. It is possible.

In addition, the bottom of the fixing part 744, 744a is preferably provided with a buffer pad for elastic coupling with the light collecting panel 600.

The support member 800 is an angle pipe 100 that forms the upper and lower ends of the bracket 810 and the upper module frame 200 coupled to the ground while the rectangular module frame 200 is inclined. Hinged).

And the upper and lower ends of the intermediate bar 840 is hinged to the middle portion of the module frame 200.

In addition, as shown in Figure 8, the bottom of the bracket 810 is in close contact with the ground is provided with a shock absorbing member 900 made of a spring or a cushioning material to absorb the vibration caused by the external shock, the vibration does not flow into the building To be avoided.

Therefore, the solar module structure for solar power generation according to the present invention, the square tube is known in the square pipe is installed in a state inclined to the ground through the support member and also connected to the pipe in the longitudinal direction of the cross-section The module frame is made and there is an effect that the light collecting panels for incidence of sunlight on the upper surface of the module frame can be easily fixed through the light collecting panel fixing clamp.

In addition, the module frame is fixed to the ground in a buffer state when the external pressure is generated that there is an effect that can be absorbed without transmitting the noise and vibration into the building.

Claims (3)

“A”, “T” and “+” type pipe connectors connecting the ends of a plurality of pipes so that a plurality of rectangular module frames are arranged, and condensing panels arranged on the upper side of the module frame, respectively. In the support structure of the solar module comprising a light collecting panel fixing clamp for fixing and a support member for allowing the module frame to be installed to be inclined with respect to the ground, The pipes are formed of square pipes having a square shape of "ㅁ"; The pipe connector, the "a" type, "T" type and "+" type of the connector is a pair of upper and lower wrap around the upper and lower surfaces of the respective pipes in a pair to provide a close contact with each other; The condensing panel fixing clamp may be bent upward from one end of the close contact portion which is in close contact with the surface of the angular pipe on one side and then bent outward again to allow the end of the condensing panel to be seated and the bottom of the condensing panel fixing clamp. A lower member for forming a support part by forming a protruding rib so as to be supported on the surface of the angle pipe, and a coupling part which is in close contact with the upper surface of the close contact part with the close contact part and is coupled to the angular pipe through a fastener; And an upper member which is bent upward from one end of the coupling part and then bent outward to form a fixing part which fixes the upper surface of one end of the light collecting panel in a locked state; When the rectangular module frame is inclined, the upper and lower sides are hinged to a support member hinged to the ground through a bracket, one end of which is hinged to the ground bracket supporting the upper end, and the other end to the middle of the module frame. To be fixed to the ground by hinged intermediate bars; The solar module structure for solar power, characterized in that the bottom surface of the bracket in close contact with the ground is provided by a buffer member. The method of claim 1, wherein the pipe connector A solar module structure for solar power generation, characterized in that each of the horizontal portion is in close contact with the upper and lower surfaces of the angle pipe and the support portion bent from the horizontal portion to support the outer surface of the angle pipe is formed. The method of claim 1, The support part having the protruding ribs is positioned in the left and right pairs in different directions in close contact with the lower member. A solar module structure for solar power, characterized in that to simultaneously fix the light collecting panel.

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