KR101110861B1 - Module frame support device for solar power generation - Google Patents

Abstract

The present invention relates to a photovoltaic module frame support device that allows the solar power module to be firmly supported and at the same time easy to adjust the front and rear angle with a small force.
The photovoltaic module frame support apparatus according to the present invention includes a module frame for supporting a power generation module, a module coupling portion interconnecting the module frame and a power generation module, a guide rail fixedly installed on a structure, and the guide rail. A support member for interconnecting the module frame, a rotation connection unit for rotatably connecting the support member and the module frame, and an inclination angle for adjusting the inclination angle of the module frame by moving and fixing the support member along the guide rail It is provided with a control unit, the module frame extends side by side spaced apart from each other by a predetermined distance and extends along the longitudinal direction on the upper surface, and two articles having uneven parts alternately arranged in the valleys and valleys along the direction crossing the longitudinal direction A first parallel rod and two second parallel rods interconnecting both ends of the first parallel rod, respectively. The module coupling part is fitted to an edge of the power generation module, and the upper panel contacting the top surface of the power generation module and the bottom surface of the power generation module are in contact with the bottom surface of the power generation module. A fastening member including a lower panel, a connecting panel connecting the upper and lower panels, a fixing pin fastened through the fastening member, the power generation module, and the first parallel rod, and a first parallel rod fixed thereto. A fixing nut coupled to a lower end of the pin to fix the power generation module mounted to the module coupling unit to the first parallel rod, and the support member has a lower end fixed to the guide rail, and an upper end of the rear of the module frame. The rear support member is rotatably coupled through the rotary connection unit, the upper end is rotatably coupled through the rotary connection unit to the front of the module frame, The stage includes a front support member movably coupled along the guide rail through the inclination angle adjusting unit, and the rotation connection unit is formed on the support member, and has a circumferential direction on one side facing the second parallel rod. The first serration stopper is formed with irregularities in which the hills and valleys are alternately arranged. A second serration stopper having a plurality of protrusion pins protruding to be inserted into the second parallel rod at a rear surface thereof, and having irregularities in which bones are alternately arranged, and the second parallel rod and the first and second Rotation pin coupled through the center of the serration stopper and installed between the second parallel rod and the second serration stopper to be installed to surround the rotation pin And a coil spring for elastically biasing the second serration stopper toward the first serration stopper.

Description

Module frame support device for solar power generation {supporting apparatus for photovoltaic module frame}

The present invention relates to a module frame support device for photovoltaic power generation, and more particularly, to support the module frame for photovoltaic power generation so that the module for the photovoltaic power generation is firmly supported and at the same time, the front and rear angle adjustment is easily performed with a small force. Relates to a device.

In general, the photovoltaic module is used to generate electric power by using the light of the sun, and integrates a solar cell that converts the solar energy directly into electrical energy into a plate shape to produce a large amount of electrical energy at the same time. As fossil energy is gradually being depleted, the demand for it is increasing.

Such solar modules are typically installed on roofs, rooftops or exterior walls of buildings where sunlight is smoothly irradiated, or outdoors open areas. As the solar modules are formed of a thin semiconductor material, they are stably supported while preventing damage. In order to ensure that a separate support is installed on the lower side, such a support is typically formed in the upper side to support the solar module is formed in a shape corresponding to the bottom surface of the solar module in order to be disposed in the sunlight On the lower side of the support frame, the photovoltaic module is formed in such a way that the support legs are disposed to be inclined while being spaced apart from the ground.

However, the conventional support as described above has a problem that it is difficult to adjust the angle of the solar module according to the height of the seasonal solar because it is very difficult to adjust the angle of the solar module coupled to the upper surface after the installation is completed, thereby Since the module is not disposed in front of the sun at all times of the year, there is a problem that the power generation efficiency is lowered by the irradiation amount of sunlight per unit area.

The present invention has been made to solve the above problems, an object of the present invention is to provide a solar module support device that can be easily adjusted to the angle of the solar module with a simple structure.

In addition, an object of the present invention is to prevent the roller from being separated from the support rail during the movement of the roller, it is to ensure that the roller is firmly fixed in the position desired by the user with a simple structure.

Solar cell module frame support apparatus according to the present invention for achieving the above object is a module frame for supporting the power generation module, a module coupling portion interconnecting the module frame and the power generation module, the guide rail fixedly installed on the structure And a support member interconnecting the guide rail and the module frame, a rotation connection unit rotatably connecting the support member and the module frame, and moving and fixing the support member along the guide rail to the module frame. An inclination angle control unit for adjusting the inclination angle of the module frame is spaced apart from each other by a predetermined distance and extend side by side and the upper surface extends in the longitudinal direction, the mountain and the valley alternately arranged along the direction crossing the longitudinal direction Two first parallel rods having concave-convex portions, and two interconnecting both ends of the first parallel rods, respectively Two parallel rods, wherein the module coupling part is fitted to an edge of the power generation module, and the upper panel contacting the top surface of the power generation module and the bottom surface of the power generation module are in contact with the uneven portion of the first parallel rod. A fastening member including a lower panel having corresponding unevenness, a connection panel connecting the upper and lower panels, a fixing pin fastened through the fastening member, the power generation module, and the first parallel rod; 1 includes a fixing nut coupled to a lower end of the fixing pin penetrating the parallel rod to fix the power generation module mounted on the module coupling unit to the first parallel rod, and the support member has a lower end fixed to the guide rail. The upper end is a rear support member that is rotatably coupled to the rear of the module frame through the rotary connection unit, and the upper end is a rotary connection unit in front of the module frame It is rotatably coupled, the lower end includes a front support member that is movably coupled along the guide rail through the inclination angle adjustment unit, the rotary connection unit is formed on the support member, and directed to the second parallel rod Corresponding to the unevenness of the first serration stopper, the first serration stopper having unevenness in which hills and valleys are alternately arranged along the circumferential direction on one side thereof, and the front surface opposite to one side of the first serration stopper And a second serration stopper having a plurality of protrusion pins protruding to be inserted into the second parallel rod at a rear surface thereof, and having irregularities in which hills and valleys are alternately arranged along the circumferential direction thereof. And a rotary pin coupled through the center of the first and second serration stoppers and between the second parallel rod and the second serration stopper. It is provided to surround the group rotation pin provided with a coil spring for the second elastic biasing the stopper toward the serration of the first serration stopper.

The guide rail is in the form of a rectangular steel in which a long hole is formed along the longitudinal direction on one side, the upper surface is formed with a plurality of insertion holes in communication with the inner space and spaced at regular intervals along the longitudinal direction, the inclination angle adjusting unit is The guide rail is formed to be capable of traveling in the longitudinal direction of the guide rail, and a support groove drawn toward the rotation center at a predetermined interval along the circumferential direction is formed on the outer circumference thereof, and the rotation support shaft extending from the rotation center is And a wheel member extending through the long hole and connected to the front support member, and a position fixing portion for fixing the position of the wheel member to stop the wheel member at a predetermined position of the guide rail, wherein the position fixing portion is the guide. It is possible to drive along the auxiliary rail extending along the longitudinal direction of the guide rail on the upper surface of the rail. A traveling block provided with two stop holes spaced apart from each other by a distance corresponding to the insertion hole to penetrate the upper and lower surfaces, a vertical member extending upwardly from the front and rear in the traveling direction of the traveling block, and the vertical member A fixed body comprising a handle member for interconnecting an upper end, two guide rods protruding a predetermined length downward from a lower surface of the handle member, and a fixing penetrating downward from an upper portion of the traveling block through a stop hole of the traveling block; A first elevating plate formed to connect the rod with an upper end of the fixed rod, and a second hole formed at an upper portion of the first elevating plate with a vertical rod spaced apart by a predetermined distance, and having a guide hole through which the guide rod can pass. A stopper including an elevating plate and an upper and lower ends surrounding the guide rods, respectively, and the lower and second elevating portions of the handle member. An elastic member which is supported on an upper surface of the elastic member to elastically bias the stopper downward, and the fixed rod penetrates the insertion hole and protrudes downward of the traveling block by the elastic member, and is located inside the guide rail. Is inserted into the support groove of the wheel member is preferably formed to block running along the guide rail.

The photovoltaic module frame support apparatus according to the present invention having the above configuration can have a stable support structure by improving the fastening force between the fixing member for fixing the module frame and the module, and fastening in the process of separating and fastening the repeating module There is an advantage to minimize the wear of the members.

1 is a perspective view showing one embodiment of a module frame support device for photovoltaic power generation according to the present invention;
Figure 2 is a partial exploded perspective view showing a connection of the power generation module and the module frame of Figure 1,
3 is a cross-sectional view showing a connection of the power generation module and the module frame of FIG.
Figure 4 is an exploded perspective view showing a connection of the module frame and the support member of Figure 1,
5 is a cross-sectional view of FIG.
Figure 6 is a partially cut perspective view showing the connection of the lower end and the guide rail of the support member of Figure 1,
7 is a cross-sectional view of FIG. 6.

Hereinafter, with reference to the accompanying drawings will be described in more detail the module frame support apparatus for photovoltaic power generation according to the present invention.

1 to 7 illustrate a preferred embodiment of the module frame support device for photovoltaic power generation according to the present invention.

Referring to the drawings, the photovoltaic module frame support apparatus 100 includes a module frame 110 for supporting the power generation module 10, and a module coupling part for coupling the module frame 110 and the power generation module 10. 120, a guide rail 130 installed on the support structure, a support member 140 connecting the guide rail 130 and the module frame 110, and a support member 140 to the module frame 110. Rotating connection unit 150 and rotatably coupled to the support member 140, the inclined angle control unit 160 to adjust the inclination angle of the module frame 110 by slidingly coupled to the guide rail 130 with respect to the guide rail 130 It includes.

The power generation module 10 is equipped with a solar cell on the upper surface of the panel to generate electricity through the incident sunlight.

The power generation module 10 is supported by the module frame 110 through a module coupling unit 120, the module frame 110 is a first parallel rod 111 and extends in parallel with a predetermined distance from each other, And second parallel rods 112 extending side by side to interconnect both ends of the first parallel rods 111. Therefore, the module frame 110 is in the form of a rectangular border by two first and second parallel rods 111 and 112 extending in parallel with each other.

The first parallel rod 111 is a profile having one side open in a 'c' shape, and an uneven portion 113 is formed on an upper surface on which the power generation module 10 is seated. The uneven portion 113 has a peak and a valley alternately formed along the longitudinal direction of the second parallel rod 112, and extends along the longitudinal direction of the first parallel rod 111. The uneven portion 113 is formed during the extrusion process of the first parallel rod 111. In addition, the concave-convex portion 113 has a fastening hole 114 formed therethrough.

The module coupling unit 120 is for coupling the power generation module 10 and the module frame 110 with each other.

As shown in FIG. 2, the module coupling part 120 includes a fastening member 121 fastened to an edge of the power generation module 10, the fastening member 121, the power generation module 10, and the first parallel rod 111. It includes a fixing pin 127 is mounted to pass through).

The fastening member 121 includes an upper panel 122 and a lower panel 123 contacting upper and lower edges of the module frame 110, and a connection panel 124 connecting upper and lower panels 122 and 123. It is a member of the 'c' shape, the lower surface of the lower panel 123 is formed with the concave-convex 125 corresponding to the concave-convex portion 113 of the first parallel rod 111. In addition, through-holes 126 penetrating the upper and lower surfaces are formed in the upper panel 122 and the lower panel 123, and the power generation module 10 and the first parallel rod 111 are interconnected through fixing pins 127. Can be. The fixing nut 128 is fastened to the lower portion of the fixing pin 127.

The concave and convex formed on the lower surface of the fastening member 121 and the upper surface of the first parallel rod 111 are interlocked with each other, particularly, the peaks and valleys of the concave and convex are alternately formed along the longitudinal direction of the second parallel rod 112. Because of the shape, even if the module frame 110 is inclinedly supported to adjust the angle of incidence of sunlight, the power generation module 10 can be prevented from slipping in the inclined direction with respect to the module frame 110.

The support member 140 supports the module frame 110 in a state spaced upwardly with respect to the support surface.

The support member 140 includes a front support member 141 supporting the front end side of the module frame 110 and a rear support member 142 supporting the rear end side of the module frame 110.

Both the front support member 141 and the rear support member 142 are coupled to the module frame 110 through the top of the rotary connection unit 150.

The rotary connection unit 150 includes a first serration stopper 171 and 151 formed at the upper end of each support member 140 and a second serration stopper 171 mounted to the second parallel rod 112. 152, a coil spring 156 for elastically biasing the second serration stopper 171, 152 toward the first serration stopper 171, 151, and a supporting member with respect to the second parallel rod 112. Rotation pin 154 rotatably supporting 140.

Both the first serration stopper 171, 151 and the second serration stopper 171, 152 have pinholes 153 formed therein so that the rotary pin 154 may be penetrated in the center thereof. On the opposite surface facing each other, the peaks and valleys are alternately arranged along the circumferential direction. Therefore, as the first serration stoppers 171 and 151 and the second serration stoppers 171 and 152 are engaged with the irregularities formed by the hills and valleys, the support member 140 is not provided with an external force of a predetermined size or more. Is blocked from rotating with respect to the second parallel rod 112.

The first serration stoppers 171 and 151 are integrally formed with the support member 140 at the upper end of the support member 140, and the second serration stoppers 171 and 152 face the front surface where the unevenness is formed. A plurality of protruding pins 155 protruding a predetermined length toward the rear side are formed at a rear surface thereof so as to be inserted into the second parallel rods 112, and the coil spring 156 is a second serration stopper 171 ( It is installed between the rear surface of the 152 and the second parallel rod 112. The second serration stopper 171, 152 is not rotated in the direction in which the support member 140 rotates because the protruding pin 155 is inserted into the second parallel rod 112, but the coil spring 156 does not rotate. While extruding, a predetermined distance can be moved along the longitudinal direction of the rotary pin 154.

The rotary connection unit 150 is to enable to support the module frame 110 rotatably with respect to the support member 140 to adjust the inclination angle of the module frame 110, the front support member 141 by the manager And the coil spring 156 is compressed only when an external force is applied to force the rear support member 142 to be rotated, and the first and second serration stoppers 171 (151, 152) are spaced apart from each other to rotate. After the stop, the second serration stopper 171, 152 is in close contact with the first serration stopper 171, 151 by the coil spring 156, and the support member 140 may be caused by external factors such as wind. The rotation between the module frames 110 is prevented from occurring.

The inclination angle adjusting unit 160 is installed at the lower end of the front support member 141 to support and fix the front support member 141 to be slidable in the front and rear directions along the guide rail 130.

In the case of the rear support member 142, the lower end is fixed to the guide rail 130, while the front support member 141 has a lower end sliding by the inclination angle adjusting unit 160, according to the lower position of the front support member 141. The inclination angle of the module frame 110 may be adjusted. Accordingly, the inclination angle of the module frame 110 is adjusted to increase the amount of incident sunlight.

The inclination angle adjusting unit 160 includes a wheel member 161 installed at a lower end of the front support member 141 so as to slide along the guide rail 130, and a position fixing part for fixing the position of the wheel member 161. 163.

The guide rail 130 is formed in a rectangular steel shape in which a long hole 131 penetrates an inner circumferential surface and an outer circumferential surface along a longitudinal direction on one side thereof, and the wheel member 161 has a square diameter so that the wheel member 161 can proceed inside the rectangular steel. It is formed to correspond to the height of the steel. And the rotation support shaft extending from the lower end of the front support member 141 is connected to the center of rotation of the wheel member 161 through the long hole 131. In addition, the upper surface of the guide rail 130 is formed to extend along the longitudinal direction of the auxiliary guide rail 130 for the installation of the position fixing portion 163 to be described later, the upper surface of the guide rail 130 Accordingly, a plurality of insertion holes 133 spaced apart from each other are formed.

The wheel is formed with support grooves 162 spaced apart at regular intervals along the circumferential direction on the circumferential surface.

The position fixing part 163 is to fix the inclined position of the module frame 110 by fixing the wheel member 161 not to travel along the guide rail 130, the auxiliary rail 132 on the upper surface of the guide rail 130 The fixed body 164 to run along), the stopper 171 is installed to be able to move up and down the fixed body 164, and the elastic member 177 to elastically bias the stopper 171 downward.

The fixed body 164 has a driving block 165 having a guide protrusion 166 formed on the lower surface thereof so as to be coupled to the auxiliary rail 132, and both sides of the driving block 165 in the longitudinal direction of the guide rail 130. A handle member 169 includes a vertical member 168 extending upward from an end portion and a horizontal member connecting the upper end of the vertical member 168. The driving block 165 is spaced apart a predetermined interval along the longitudinal direction of the guide rail 130 and two stop holes (not shown) are formed to penetrate the upper and lower surfaces.

The stopper 171 may include a fixing rod 172 protruding downwardly through the driving block 165 through the stop hole, a first elevating plate 173 connecting an upper end of the fixing rod 172; A vertical rod 175 extending upward from an upper surface of the first elevating plate 173, a second elevating plate 174 connected to an upper end of the vertical rod 175, and the second elevating plate 174. It includes.

The fixed rod 172 is formed to have a length that can be inserted into the guide rail 130 through the insertion hole 133 when the fixed rod 172 is lowered and protrudes downward of the driving block 165, the second lifting plate Two guide holes 176 are formed at 174 to penetrate the upper and lower surfaces. In addition, the handle member 169 is provided with a guide rod 170 penetrating the guide hole 176, the handle member 169 and the second to raise and lower the second lifting plate 174 a predetermined distance upwards. The lifting plates 174 are spaced apart.

The elastic member 177 is a compression spring surrounding the guide rod 170 and the lower and upper ends are respectively supported on the upper surface of the second elevating plate 174 and the lower surface of the horizontal member to elastically lower the second elevating plate 174. Biased.

The first and second elevating plates 173 and 174 are lowered by the elastic member 177 to maintain the state in which the fixed rod 172 is inserted into the guide rail 130. The lower end is inserted into the support groove 162 formed in the wheel member 161 to block the wheel member 161 from traveling back and forth along the guide rail 130 to fix the position of the front support member 141. .

If it is necessary to adjust the angle of the module frame 110, the first and second elevating plate (173, 174) to raise the fixed rod 172 is separated from the wheel member 161 and then the front support member 141 After moving the driving block 165 to move forward or backward and fixed to the determined position and release the second lifting plate 174, the fixing rod 172 is lowered again by the elastic member 177 to move the wheel member 161. It is fixed.

The above-described photovoltaic module frame support apparatus 100 according to the present invention is easy to install and can stably support the module frame 110, and furthermore, can easily adjust the inclination angle of the module frame 110. have.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100; Module frame support device for solar power generation
110; Module Frame
111; First parallel rod 112; Second parallel rod
113; Irregularities
120; Module coupling part
121; Fastening member 127; Fixing pin
130; Guide rail
140; Supporting member
141; Anterior support member 142; Rear support member
150; Rotary Connection Unit
151; First serration stopper 152; 2nd serration stopper
154; Rotary pin 156; Coil spring
160; Tilt angle adjustment unit
161; Wheel member
163; Location
164; Fixed body 171; stopper
177; Elastic member

Claims (2)

A module frame supporting the power generation module;
A module coupling part connecting the module frame and the power generation module to each other;
A guide rail fixed to the structure;
A support member connecting the guide rail and the module frame to each other;
A rotary connection unit for rotatably connecting the support member and the module frame;
And an inclination angle adjusting unit configured to move and fix the support member along the guide rail to adjust the inclination angle of the module frame.
The module frame has two first parallel rods extending side by side and spaced apart from each other at a predetermined interval and extending in a longitudinal direction on the upper surface thereof, and having uneven portions alternately arranged with a peak and a valley along a direction crossing the longitudinal direction. Two second parallel rods interconnecting both ends of the first parallel rod,
The module coupling part is fitted to an edge of the power generation module, and the upper panel contacting the upper surface of the power generation module and the lower panel contacting the lower surface of the power generation module are formed with unevenness corresponding to the uneven portion of the first parallel rod. And a fastening member including a connection panel connecting the upper and lower panels, a fixing pin fastened through the fastening member, the power generation module, and the first parallel rod, and a fixing pin penetrating the first parallel rod. A fixing nut coupled to a lower end to fix the power generation module mounted on the module coupling part to a first parallel rod,
The support member has a lower end fixed to the guide rail, the upper end is a rear support member that is rotatably coupled to the rear of the module frame through the rotation connection unit, the upper end is a rotation connection unit in front of the module frame Is rotatably coupled through, the lower end includes a front support member coupled to be movable along the guide rail through the inclination angle adjustment unit,
The rotation connecting unit is formed on the support member, the first serration stopper is formed in the concave-convex grooves and valleys alternately arranged along the circumferential direction on one side facing the second parallel rod, the first serration On the front surface of the stopper facing the unevenness of the first serration stopper is formed in the convex convex alternately arranged in the circumferential direction so as to correspond to the unevenness of the stopper and protrudes so that the rear side can be inserted into the second parallel rod A second serration stopper having a plurality of protruding pins formed therein, a rotating pin coupled through a center of the second parallel rod and the first and second serration stoppers, and the second parallel rod and the second serration stopper. A coil spring disposed between the rotary pins and elastically biasing the second serration stopper toward the first serration stopper. Module frame support device for photovoltaic power generation, characterized in that. Claim 2 has been abandoned due to the setting registration fee. The method of claim 1,
The guide rail is in the form of a rectangular steel in which a long hole is formed along the longitudinal direction on one side, the upper surface is formed with a plurality of insertion holes in communication with the inner space and spaced at regular intervals along the longitudinal direction,
The inclination angle adjusting unit is formed to be capable of traveling along the longitudinal direction of the guide rail in the guide rail, and has a support groove drawn toward the rotation center at regular intervals along the circumferential direction on the outer circumference thereof, and extends from the rotation center. A rotational support shaft extending through the long hole and connected to the front support member;
Is provided with a position fixing portion for fixing the position of the wheel member so that the wheel member is stopped at a predetermined position of the guide rail,
The position fixing part is installed to run along an auxiliary rail extending along the longitudinal direction of the guide rail on the upper surface of the guide rail, and two stop holes spaced by a distance corresponding to the insertion hole are formed to penetrate the upper and lower surfaces. A block, a vertical member extending upwardly from the front rear and the rear in the running direction of the driving block, a handle member interconnecting an upper end of the vertical member, and two protruding lengths downward from a lower surface of the handle member; A fixed body including a guide rod,
A fixed rod penetrating downwardly from an upper portion of the traveling block through a stop hole of the traveling block, a first elevating plate formed to connect an upper end of the fixed rod, and a predetermined distance through a vertical rod on an upper portion of the first elevating plate; A stopper including a second lifting plate which is spaced apart from each other and has a guide hole through which the guide rod can pass;
An elastic member surrounding the guide rod and having an upper end and a lower end supported on the lower surface of the handle member and the upper surface of the second lifting plate, respectively, to elastically bias the stopper downward;
The fixing rod is inserted into the support groove of the wheel member located inside the guide rail through the insertion hole when the fixing rod is protruded downward of the traveling block to block the wheel member from traveling along the guide rail. Module frame support device for photovoltaic power generation, characterized in that it is formed.

Images