KR101622764B1 - solar-cell module support structure - Google Patents

Abstract

The purpose of the present invention is to provide a solar module rack capable of increasing light condensing efficiency by installing a solar module to form a V shape. The solar module rack of the present invention comprises: a frame unit installed for light collecting plates to face each other forming an angle to have v-shaped first and second solar modules to absorb a direct component and a multi-reflection component of received solar light; and an ascending unit installed to ascend the frame unit to adjust the height of the first and second solar modules facing each other.

Description

Solar-cell module support structure

The present invention relates to a photovoltaic module cradle, in which a photovoltaic module is installed in a V shape so as to absorb all the reflected multi-reflected components including direct sunlight incident on the photovoltaic module, And more particularly, to a solar module module stand capable of easily adjusting the angle of a solar module in response to a varying altitude of the sun, thereby enhancing the efficiency of condensing solar light.

Generally, a solar module refers to a device that converts solar energy into electrical energy. The solar module provides advantages such as no pollution, no noise, and infinite supply energy. In addition, a solar module converts solar energy into electric energy by solar cell arrays arranged in series and in parallel through a ribbon and a bus bar having conductivity and a plurality of solar cells. That is, solar energy transmitted through the low iron tempered glass that is seated on top of the solar cell array is converted into electric energy.

In order to achieve high efficiency of power generation, such a solar module is a tracking type that tracks the position of the sun through power or equipment operation so that the direct sunlight of the sun can be vertically incident on the front surface of the solar cell module, A semi-fixed type in which the position is changed vertically according to the altitude of the sun, and a fixed type in which the position is fixed regardless of the altitude of the sun.

The tracking device of the tracking type photovoltaic module is a device for moving a light-condensing plate to increase the light-gathering performance while tracking the moving sun. The tracking method of the tracking device mainly includes program tracking and sensor tracking. Program tracking is a tracking method that rotates the condenser by inputting the movement of the sun by the earth's rotation and revolution in advance in the program. On the other hand, the sensor tracking detects the movement of the sun as a sensor and controls the direction of the light collecting plate. Various improvements have been made in accordance with the progress of various related technology. The technology of the tracking device includes a sun position detection method, a tracking member, a tracking driving method, and a driving power.

However, since the structure of the conventional sunlight position tracking device is very complicated and the position of the sunlight can be automatically tracked, the position fixing device can not be firmly fixed.

In addition, the solar module has a problem that it can not absorb direct sunlight of the incident sun. That is, since the conventional solar module is installed at a certain angle toward the sun, the sunlight of the incident sun is partially absorbed and refracted, and a part of the sunlight is reflected, so that the light absorption phenomenon of the solar module is ineffective Lt; / RTI >

Korean Utility Model Registration No. 20-0297771, solar tracking device.

It is an object of the present invention to provide a solar module having a V-shaped structure, which is capable of absorbing all the reflected multi-reflection components including the direct sunlight component incident on the solar module, So that the angle of the optical module can be easily adjusted, thereby improving the condensing efficiency of the sunlight.

In order to accomplish the above object, the present invention provides a solar panel module in which a first solar module and a second solar module are installed at an angle such that the solar panels face each other, A frame unit for establishing a shape; And an elevation unit installed to raise and lower the frame unit so as to adjust the height of the first solar module and the second solar module so that the first solar module and the second solar module facing each other have a height difference Wherein the frame unit comprises: a first frame unit provided so as to support the first and second solar modules so that the first and second solar modules are in a V shape; Wherein the first frame unit and the second frame unit are composed of a strut installed upright from the ground, a horizontal member installed at the upper end of the strut, 1, an inclined member provided on an upper end of the second vertical member and the first and second vertical members to form an inclined surface, and an upper and a lower second solar modules, respectively, Wherein the first frame unit and the second frame unit each include a first elevation unit and a second elevation unit installed to the first frame unit and the second frame unit so as to respectively adjust the elevations of the first frame unit and the second frame unit, The second elevating unit includes a pinion gear which is installed in a vertical direction on one side of the pillar and which is provided to be meshed with the pinion gear and rotated in place, a driving motor provided to rotate the pinion gear, And a pinion gear is engaged with the pinion gear through the opening, and the pinion gear is engaged with the pinion gear through the opening, and the pinion gear is engaged with the pinion gear, It is preferable that the support is raised and lowered.

And an angle adjusting unit which is installed to adjust the angle between the first solar module and the second solar module and is capable of adjusting the angle between the first solar module and the second solar module facing each other, Unit comprises a first angle adjusting unit and a second angle adjusting unit respectively installed in the first frame unit and the second frame unit so as to adjust angles of the first sunlight module and the second sunlight module, Wherein the first and second angular adjustment units are constructed such that the first vertical member is constituted by a cylinder and both ends of the cylinder are rotatably coupled to the inclined member and the horizontal member by a first hinge and a second hinge, The upper end of the second vertical member is coupled with the third hinge so as to form the center of rotation of the first and second inclined members so that the inclination of the first and second solar modules can be adjusted by the operation, .

In the first and second angle adjusting units, both the first vertical member and the second vertical member may be cylinders, and both ends of the cylinder may be rotatably hinged to the inclined member and the horizontal member.

Wherein the first and second solar modules include a unit condensing plate for condensing solar light, wherein the unit condensing plate is fixed to a reinforcing bar provided on an inclined member, and the unit condensing plate fixed to the reinforcing bar has a " It is preferable that the outer frame is provided.

A control unit for controlling the driving motor of the elevating unit and the cylinder of the angle adjusting unit is installed and the control unit includes a sensor for sensing the altitude and direction of the sun so that the driving motor and the cylinder .

The present invention does not require an excessive installation area and facilities, and can easily adjust the height and inclination angle of the solar module according to the height and direction of the sun depending on the season, thereby maximizing the light condensing efficiency.

In addition, the present invention can provide a solar module with a V shape to absorb most of the direct component and multiple reflection components of sunlight, thereby improving the light collecting surface area and efficiency even with a narrow installation area.

Further, the present invention has an effect that it is simple in structure and can be fixed so as to withstand external factors such as wind pressure.

1 is a view illustrating a solar module holder according to the present invention,
2 is an enlarged view of the "A" part of Fig. 1,
FIG. 3 is a side view of FIG. 2,
FIG. 4 is a view showing the display of FIG. 2 from above,
5 is a view showing a state in which the height of a solar module is controlled by an elevating unit provided in a solar module module holder according to the present invention,
6 is a view showing a state in which the angle of a solar module is adjusted by an angle adjusting unit provided in a solar module module holder according to the present invention,
FIG. 7 is a view schematically showing the incidence and reflection paths of sunlight incident on the solar module provided in the solar module holder according to the present invention, and FIG.
FIG. 8 is a block diagram of a controller included in a solar module holder according to the present invention.

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

As shown in the figure, a frame unit 110 is provided on a solar module module base according to the present invention. The frame unit 110 is installed so that the light collecting plates 102 are opposed to each other at an angle to each other so that the first solar module 100a and the second solar module 100a can absorb the direct component and multiple reflection components of incident sunlight. 100b may be formed in a V-shape.

The frame unit 110 includes the first solar module 100a and the second solar module 100b so that the first solar module 100a and the second solar module 100b form a V shape, And a first frame unit 110a and a second frame unit 110b which are installed to be supported.

The first and second frame units 110a and 110b are provided with pillars 112 erected from the ground and a horizontal member 114 is installed at the upper end of the pillars 112, First and second vertical members 116a and 116b having different lengths are provided at both ends of the first and second vertical members 116a and 116b and an inclined member 118 is installed at an upper end of the first and second vertical members 116a and 116b And the first and second solar modules 100a and 100b are installed on the upper portion of the inclined member 118, respectively.

As shown in the figure, the lifting unit 120 is provided in the solar module module holder according to the present invention. The elevating unit 120 can elevate and lower the frame unit 110 to adjust the elevation of the first solar module 100a and the second solar module 100b facing each other.

The elevating unit 120 is installed in the first frame unit 110a and the second frame unit 110b so as to adjust the height of the first frame unit 110a and the second frame unit 110b, And includes a first elevating unit 120a and a second elevating unit 120b.

The first lift unit 120a and the second lift unit 120b are installed on the one side of the strut 112 in a vertical direction and are fixed to the pinion gears And a drive motor 126 is installed to rotate the pinion gear 124. When the pinion gear 124 is rotated by the drive motor 126, Thereby allowing the column 112 to be raised and lowered while operating.

At this time, the strut 112 is inserted into the guide 128 to guide the elevation of the strut 112. To this end, an opening 128a is formed in a vertical direction on one side of the guide 128, and a rack gear 122 is installed to be engaged with the pinion gear 124 through the opening 128a. The pinion gear 124 and the pinion gear 122 may be installed to be protected by a cover (not shown).

The lifting unit 120 can easily adjust the height of the solar module corresponding to the altitude of the sun depending on the season, and the height of the first solar module 100a and the second sunlight The height of the module 100b can be set to be different from each other, so that incident and reflected components of sunlight can be absorbed more efficiently.

As shown in the figure, the solar module module holder according to the present invention is provided with an angle adjusting unit. The angle adjusting unit 130 is provided to adjust the angle between the first solar module 100a and the second solar module 100b and includes a first solar module 100a and a second solar module 100b facing each other, It is possible to adjust the angle of the light source 100b.

The angle regulating unit 130 is disposed between the first frame unit 110a and the second frame unit 110b so as to adjust the angle between the first solar module 100a and the second solar module 100b, And a first angle adjusting unit 130a and a second angle adjusting unit 130b, respectively.

The first and second angle adjusting units 130a and 130b are formed such that the first vertical member 116a is constituted by a cylinder 132 and both ends of the cylinder 132 are connected to the inclined member 118 and the horizontal member 114 The first and second hinges 132a and 132b are rotatably coupled to the first hinge 132a and the second hinge 132b so that the tilt of the solar module can be controlled by the operation of the cylinder 132. [ The upper end of the second vertical member 116b is coupled to the third hinge 134a so as to be rotatable so as to form the center of rotation of the second vertical member 118. [

Therefore, the slant member 118 can be rotated about the third hinge 134a by the forward and backward movement of the cylinder 132. [

Meanwhile, both the first vertical member 116a and the second vertical member 116b may be cylinders, and both ends of the cylinder may be inclined members (not shown) 118 and the horizontal member 114 in a hinged manner.

The angular adjustment unit 130 can easily adjust the angle of the solar module corresponding to the altitude of the sun, which changes according to the season, so that incident and reflected components of sunlight can be absorbed more efficiently. That is, the present invention can efficiently absorb sunlight by adjusting the height difference and angle of the first and second solar modules 100a and 100b.

The first and second solar modules 100a and 100b include a unit condenser 102 that condenses sunlight, and the unit condenser 102 includes a first condensing unit 102a and a second condensing unit 102b. The outside of the first and second solar modules 100a and 100b corresponding to the entire unit light collecting plate 102 fixed to the reinforcing bar 119a provided on the inclined member 118 and fixed to the reinforcing bar 119a, Quot; C "-shaped outer frame 119b may be provided on the rim.

The control unit 140 may control the driving motor 126 of the elevating unit 120 and the cylinder 132 of the angle adjusting unit 130. In this case, The control unit 140 is provided with a sensor for sensing the altitude and direction of the sun so that the drive motor 126 and the cylinder 132 can be controlled by the sensing signal of the sensor.

According to the present invention, when the first and second solar modules 100a and 100b are kept at a certain angle from each other by the frame unit 110, two facing surfaces (condenser plates) Respectively. At this time, due to the V shape, they face each other while maintaining an angle with each other. Due to this arrangement, both the direct component and the reflection component of sunlight are absorbed.

The first and second solar modules 100a and 100b are installed in the first and second solar modules 100a and 100b in accordance with the installation position and direction of the first and second solar modules 100a and 100b facing each other while maintaining a constant angle, (Inclination angle) and height of the first and second solar modules 100a and 100b can be easily adjusted to optimize the incident amount of sunlight incident on the first and second solar modules 100a and 100b.

FIG. 7 schematically shows the incidence and reflection paths of sunlight incident on the first and second solar modules 100a and 100b installed in the V-shape. FIG. 7 schematically shows the incidence and reflection paths of the sunlight incident on the first and second solar modules 100a and 100b When the sunlight is incident on the first and second solar modules 100a and 100b, that is, when the direct component of sunlight is incident on the first and second solar modules 100a and 100b, When the light is incident on the modules 100a and 100b, the light is reflected and is incident on the other solar module.

It is preferable that the first and second solar modules 100a and 100b of the present invention maintain an angle at which both the direct component of the sunlight and the reflection component including multiple reflection components can absorb, And the angle adjusting unit 130 can be kept optimized.

In the present invention, the solar light is efficiently condensed on the first and second solar modules 100a and 100b installed in the V shape. First, the solar light is transmitted to the first and second solar modules 100a and 100b When the first and second solar modules 100a and 100b are incident, the first and second solar modules 100a and 100b partially absorb incident sunlight at one time and are partially reflected. The reflected light is absorbed by the solar modules facing each other, The V-type solar module of the present invention repeatedly absorbs and reflects the sunlight, and the reflected light is absorbed by the solar module facing the solar module again. That is, So that it is possible to absorb all incident sunlight (refer to arrows in Fig. 7)

Therefore, the V-type solar module of the present invention performs both the function of the light collecting part for absorbing the sunlight and the function of the reflection plate, absorbs all the reflection components including the direct component and the multiple reflection component of the sunlight, .

The V type solar module of the present invention can generate solar power with high efficiency without requiring a large space. That is, the installation area can be reduced to about 1/3, and moreover, the solar heat can be transmitted to the solar module surface more evenly, and also it can be helpful for the cleaning work of the foreign substances and the economic effect.

100a, 100b - First and second solar modules 110 - Frame unit
110a, 110b - first and second frame units 112 -
114 - horizontal members 116a, 116b - first and second vertical members
118 - slope member 120 - elevating unit
120a and 120b, first and second lift units 122,
124 - Pinion gear 126 - Driving motor
128 - Guide 130 - Angle adjustment unit
130a, 130b - First and second angle adjusting unit 132 - Cylinder

Claims (5)

A frame unit in which a first solar module and a second solar module are installed in a V shape so as to absorb a direct component and multiple reflection components of sunlight incident on the light collecting plates at an angle to each other; And
A first solar module and a second solar module, the first solar module and the second solar module being mounted to raise and lower the frame unit so that the first solar module and the second solar module face each other, / RTI >
Further comprising an angle adjusting unit installed to adjust an angle between the first solar module and the second solar module and capable of adjusting an angle between the first solar module and the second solar module facing each other,
The frame unit may include a first frame unit and a second frame unit installed to support the first solar module and the second solar module, respectively, so that the first solar module and the second solar module form a V- Lt; / RTI >
The first frame unit and the second frame unit,
A pillar set up from the ground,
First and second vertical members which are installed on both ends of the horizontal member and have different lengths,
And an inclined member provided on an upper end of the first and second vertical members to form an inclined surface and to which the first and second solar modules are respectively installed,
Wherein the elevating unit comprises a first elevating unit and a second elevating unit respectively installed in the first frame unit and the second frame unit to adjust the elevation of the first frame unit and the second frame unit,
Wherein the first and second lifting units include a pinion gear provided in a vertical direction on one side of the pillar and installed to rotate in place by being engaged with the pinion gear, a drive motor provided to rotate the pinion gear, The pinion gear being rotated by the pinion gear, the pinion gear being rotatably supported by the pinion gear,
Wherein the guide is formed with an opening in a vertical direction, the pinion gear is engaged with the rack-like gear through the opening,
Wherein the pinion gear and the pinion gear are installed to be protected by a cover,
The angle adjusting unit may include a first angle adjusting unit and a second angle adjusting unit installed on the first frame unit and the second frame unit, respectively, so as to adjust angles of the first sunlight module and the second sunlight module, Lt; / RTI >
Wherein the first and second angular adjustment units are constructed such that the first vertical member is composed of a cylinder and both ends of the cylinder are rotatably coupled to the inclined member and the horizontal member by a first hinge and a second hinge, The upper end of the second vertical member is coupled with the third hinge so as to form the center of rotation of the first and second inclined members so that the inclination of the first and second solar modules can be adjusted by the operation of the first and second solar modules, Wherein the solar module module is mounted on the solar module module. delete A frame unit in which a first solar module and a second solar module are installed in a V shape so as to absorb a direct component and multiple reflection components of sunlight incident on the light collecting plates at an angle to each other; And
A first solar module and a second solar module, the first solar module and the second solar module being mounted to raise and lower the frame unit so that the first solar module and the second solar module face each other, / RTI >
Further comprising an angle adjusting unit installed to adjust an angle between the first solar module and the second solar module and capable of adjusting an angle between the first solar module and the second solar module facing each other,
The frame unit may include a first frame unit and a second frame unit installed to support the first solar module and the second solar module, respectively, so that the first solar module and the second solar module form a V- Lt; / RTI >
The first frame unit and the second frame unit,
A pillar set up from the ground,
First and second vertical members which are installed on both ends of the horizontal member and have different lengths,
And an inclined member provided on an upper end of the first and second vertical members to form an inclined surface and to which the first and second solar modules are respectively installed,
Wherein the elevating unit comprises a first elevating unit and a second elevating unit respectively installed in the first frame unit and the second frame unit to adjust the elevation of the first frame unit and the second frame unit,
Wherein the first and second lifting units include a pinion gear provided in a vertical direction on one side of the pillar and installed to rotate in place by being engaged with the pinion gear, a drive motor provided to rotate the pinion gear, The pinion gear being rotated by the pinion gear, the pinion gear being rotatably supported by the pinion gear,
Wherein the guide is formed with an opening in a vertical direction, the pinion gear is engaged with the rack-like gear through the opening,
Wherein the pinion gear and the pinion gear are installed to be protected by a cover,
The angle adjusting unit may include a first angle adjusting unit and a second angle adjusting unit installed on the first frame unit and the second frame unit, respectively, so as to adjust angles of the first sunlight module and the second sunlight module, Lt; / RTI >
Wherein both the first vertical member and the second vertical member are constituted by a cylinder and both ends of the cylinder are hingably connected to the inclined member and the horizontal member in a rotatable manner in the first and second angular adjustment units Solar module cradle. 4. The solar cell module according to claim 1 or 3, wherein the first and second solar modules include a unit condensing plate for condensing sunlight, the unit condensing plate is fixed to a reinforcing bar provided on an inclined member, And a "C" -shaped outer frame is provided on an outer edge of the unit condenser plate. 4. The apparatus according to claim 1 or 3, further comprising a control unit for controlling the driving motor of the elevating unit and the cylinder of the angle adjusting unit, wherein the control unit includes a sensor for sensing the altitude and direction of the sun, Wherein the control unit controls the drive motor and the cylinder by a detection signal of the control unit.

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