KR20150012962A - High concentration photovoltaic solar module with wind velocity sensors - Google Patents

Abstract

The present invention relates to a high concentration photovoltaic solar module equipped with a wind detector. The high concentration photovoltaic solar module comprises a stand; a rotational support; a fixing bar; a tracker frame; a solar tracking sensor; and one or more wind speed detection units. When wind speed or wind pressure like a typhoon, which is above a reference value, is detected, the high concentration photovoltaic solar module blocks the function of the solar tracking sensor, thereby blocking the rotation of the tracker frame. When a natural disaster such as a hurricane occurs, buckling or damage caused by the swing of the tracker frame can be prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-intensity photovoltaic solar module with wind velocity sensors,

The present invention relates to a highly concentrated solar module apparatus, and more particularly, to a solar module apparatus for stopping buckling, breakage or damage of a solar module device by stopping the operation of a solar tracker when a strong wind speed or strong wind pressure, To a solar module module.

The efficiency of the solar concentrator module is a very important factor as well as the efficiency of the concentrator itself, as well as the accuracy of the solar tracker.

Korean Patent Publication No. 2012-0119514 (published on October 31, 2012, entitled "Solar Cell Generator"), which proposes a form of a solar tracker that influences the efficiency of such a solar condenser module, is shown in FIG. 1 A solar cell panel disposed such that one surface thereof faces the direction in which sunlight is incident; A front panel supporting the other surface of the solar cell panel and receiving heat absorbed by the solar cell panel; And a heat pipe coupled to a rear surface of the support panel and having a heat absorbing portion for receiving heat and a heat dissipating portion for dissipating heat absorbed by the heat absorbing portion, A solar cell generator further comprising a solar tracker for pivoting is disclosed.

As shown in FIG. 2, Korean Patent Registration No. 0917404 (Registered on September 8, 2009, entitled: Precision Tracking System for Photovoltaic Power Generation) has a plurality of master trackers And a plurality of master trackers, wherein the plurality of master trackers are interconnected via a master communication to share sensor information of the solar tracking sensor, and based on the shared plurality of sensor information, Wherein the plurality of master trackers and the plurality of slave trackers perform the same solar tracking according to the calculated sun position calculation value, .

In addition, as disclosed in Korean Patent Publication No. 2008-0109754 (published on Dec. 17, 2008, entitled " tracking solar power system "), as shown in Fig. 3, A platform having a first degree of freedom, the solar power substructure comprising: a solar collector; And a receiver arranged to receive energy from the solar collector, the receiver being mounted in such a way as to prevent shading of the solar collector during operation; Wherein the solar power substructure is mounted on the platform in a manner having a second degree of freedom relative to the platform.

These prior arts have proposed a configuration for collecting or collecting the optimal sunlight under the same conditions, but the solar tracker is operated even in the abnormal weather where an abnormal wind speed or abnormal wind pressure such as a typhoon is detected, There was a serious problem that it was impossible to prevent destruction or damage.

An object of the present invention, which is created to solve the above problems, is to provide a wind speed control device capable of stopping the operation of a solar tracker when a strong wind speed or strong wind pressure is detected, And to provide a highly concentrated solar module device having a sensing means.

The object of the present invention can be achieved by a stand comprising: a stand firmly fixed to a roof or a ground of a building; A pivotal bearing coupled to the upper end of the stand so as to be rotatable by the motor; A fixing bar integrally attached to an upper end portion and a central portion of the pivot support by welding; A tracker frame provided on a front surface of the stationary bar; At least one highly collimated photovoltaic module mounted on a front surface of the tracker frame; A solar tracking sensor provided on a front surface of the tracker frame; At least one wind speed sensing means installed in the tracker frame; And a control unit for controlling the rotation of the pivot support according to a signal inputted from the solar tracking sensor and for blocking the signal inputted from the solar tracking sensor when the wind speed or wind pressure inputted from the wind speed sensing unit is judged to be equal to or higher than the reference value And a winder detecting means constituted by a tracker control box provided to prevent the turning pivots from rotating.

Preferably, the tracker frame of the present invention is characterized in that the tracker frame is constituted by a plurality of vertical bars mounted on the back surface of the fixed bar at equal intervals, and a plurality of horizontal bars vertically mounted on the vertical bars at regular intervals.

Preferably, the wind speed sensing means of the present invention is a sensor capable of sensing wind pressure due to wind speed or wind speed.

In the structure of the present invention as described above, when the wind speed or wind pressure is detected above a reference value as in the case of a typhoon, the function of the solar tracking sensor is blocked to prevent the tracker frame from pivoting, thereby buckling due to the swing of the tracker frame , Damage and the like can be prevented in advance.

1 is a perspective view showing a solar cell generator according to an embodiment of the prior art.
2 is a block diagram showing a precision tracking system for a solar power generation according to another embodiment of the related art.
3 is a perspective view illustrating a tracking solar power system according to another embodiment of the prior art.
FIG. 4 is a perspective view showing a highly concentrated solar module apparatus having an air-velocity sensing means according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

Referring to FIG. 4, the highly concentrated solar module apparatus including the wind speed sensing unit according to the present invention includes a stand 10, a pivot 20, a fixing bar 30, a tracker frame 50, 60, a highly concentrated solar module 70, and a wind speed sensing means 90.

The stand 10 is a steel or aluminum pillar firmly fixed to the roof or the ground of the building. Here, since the stand 10 is a structure to be installed outdoors, it is preferable that the stand 10 is plated on the outside or made of stainless steel.

The pivot support 20 is rotatably coupled to the upper end of the stand 10. Here, the pivot support 20 is rotated in conjunction with a motor (not shown), and the lower end of the pivot support 20 is supported by the upper end of the stand 10.

The fixed bar 30 is formed integrally with the upper end portion and the central portion of the pivot support 20 by welding.

The tracker frame 50 is composed of a plurality of vertical bars 53 mounted at regular intervals on the back surface of the fixed bar 30 and a plurality of horizontal bars 51 mounted vertically on the vertical bar 53 . Here, the horizontal bars 51 and the vertical bars 53 are preferably made of a rectangular metal tube.

A plurality of highly concentrated solar modules 70 are detachably coupled to the front surface of the tracker frame 50. In this case, it is important to mount the highly concentrated solar module 70 so that the weight is uniformly distributed so that the area is different according to the condensing capacity and is not eccentric to the tracker frame 50 at any one side.

The solar tracking sensor 60 is mounted on the front surface of the tracker frame 50 so as to track the position of the sun and operate the pivoting support 20 so that the front surface of the solar concentrating solar module 70 always faces the sun Provided sensor.

The wind speed sensing means 90 is installed in the tracker frame 50. When detecting wind speed or wind pressure above the reference value, the wind speed sensing means 90 interrupts the signal from the solar power perception sensor 60 and stops the rotation of the rotation support 20. Here, it is preferable that the wind speed sensing means 90 is configured to inhibit the pivotal movement of the pivot support 20 when sensing a strong wind speed or wind pressure as in the sun. The wind speed sensing means 90 is a sensor capable of sensing wind pressure due to wind speed or wind speed.

The tracker control box (not shown) senses a signal input from the solar tracking sensor 60 to drive the motor incorporated in the pivot support 20 to rotate the tracker frame 50 according to the sun position, When the wind speed or wind pressure is determined to be equal to or higher than the reference value by sensing the signal inputted from the sensing means 90, the signal inputted from the solar tracking sensor 60 is blocked to block the turning support 20 from rotating .

According to the present invention having the above-described configuration, when a wind speed or wind pressure above a reference value such as a typhoon is detected, the function of the solar tracking sensor is blocked to prevent the tracker frame from rotating, Buckling, breakage, and the like in advance.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: fixed landing
20: Convocation
30: Fixed bar
50: tracker frame
60: Solar tracking sensor
70: Highly-concentrated solar module
90: means for detecting wind speed
100: Highly condensing solar module device with wind speed sensing means

Claims (3)

A stand firmly fixed to the roof or the ground of the building;
A pivotal bearing coupled to the upper end of the stand so as to be rotatable by the motor;
A fixing bar integrally attached to an upper end portion and a central portion of the pivot support by welding;
A tracker frame provided on a front surface of the stationary bar;
At least one highly collimated photovoltaic module mounted on a front surface of the tracker frame;
A solar tracking sensor provided on a front surface of the tracker frame;
At least one wind speed sensing means installed in the tracker frame;
And a control unit for controlling the rotation of the pivot support according to a signal inputted from the solar tracking sensor and for blocking the signal inputted from the solar tracking sensor when the wind speed or wind pressure inputted from the wind speed sensing unit is judged to be equal to or higher than the reference value And a winder detecting unit configured to block the rotation of the pivot support post.
The method according to claim 1,
Wherein the tracker frame comprises a plurality of vertical bars mounted at regular intervals on the back surface of the fixed bar and a plurality of horizontal bars mounted vertically on the vertical bar at regular intervals.
The method according to claim 1,
Wherein the wind speed sensing means is a sensor capable of sensing wind pressure due to wind speed or wind velocity.

Images