KR100886376B1 - The track style sunlight production of electric power system - Google Patents

Abstract

A track style solar power system is provided to reduce maintenance and installation costs with multiple rows of main shaft linked simultaneously by a screw jack installed at orthogonal direction of multiple rows of main shafts connected through a connection bar. A track style solar power system comprises a top flange on which a rotary bearing block(24) of a main shaft connection module(20A) for connection and rotation between a main shaft(20) is bolted; a bottom flange mounted to an anchor bolt of a post base(11); a post(10) whose upper and lower end are equipped with an upper flange and lower flange respectively, supporting the main shaft; the main shaft assembled to both ends of a main shaft flange(21) fixed to both ends of a main shaft connection module; a center main shaft(22) in which the main shaft flange is formed and the main shaft is connected a solar cell module installation frame(31) assembled to the main shaft; a link whose lower piece is integrally equipped with a link bracket(53); a connection bar flange(51) connected to an elongated hole bracket having a elongated hole; a connection unit(55) in which a connection bar flange is integrated on both ends and a link pin(54) is hinged; a connection bar(50) to which a distance measuring long hole(56) to coupled to the connection bar flange is coupled; a stopper base(64) formed on the ground of the intermediate position of the connection bar; a bolt stopper(62) formed on the left and right of a stopper post(63) assembled to the stopper base; and a screw jack(70) in which a screw jack bracket(72) is assembled to the link pin and a screw jack connection rod(71) is extended.

Description

The track style sunlight production of electric power system

The present invention relates to a tracking photovoltaic device, in particular, while the south mid-high elevation of the sun according to the season is manually operated, the tracking solar for simultaneously rotating a plurality of solar module modules according to the direction of the sun moving tides It relates to a photovoltaic device.

In photovoltaic devices, the photovoltaic tracking system is a device for measuring the altitude or orientation of the sun or for the solar module panel of the solar collector or photovoltaic device to track the sun according to a pre-programmed method in time. to be.

These solar tracking systems are independent and interlocked. First, independent operation swings the solar cell module panel around the vertical swing axis and swings the solar tracking system to track the orientation of the sun. It is made by yawing operation of the solar tracking system that tracks the solar altitude of the sun by rotating the solar cell module panel around the yawing axis of the.

In addition, there are two types of interlocking types.

The first is to install several solar cell module panels on the horizontal axis which is arranged in a row on the main axis and rotated and supported so that the direction and south altitude of the sun can be tracked by separate driving means provided on the main axis and the horizontal axis. Can be mentioned.

Second, install solar module panel on several horizontal axis fixedly installed on the main axis, and install link connection between several main axis to adjust bearing according to the sun's sunset by screw jack installed at the end of each connection. There is a method configured to track the south and south altitude of the sun by season by means of driving separately prepared for each.

As described above, in the conventional photovoltaic device, there are various photovoltaic devices equipped with photovoltaic tracking systems for tracking the south-mid elevation and seasonal east-west directions according to the sun's sunset. This solar panel module is occupied, but the burden next to the solar panel module is swinging and yawing driving means such as support members such as the main shaft and the transverse shaft installed on the ground, and driving means for manipulating the azimuth and altitude of the sun. In selecting the photovoltaic device, the cost burden, the consumption of driving power, and the increase of the maintenance cost due to the complexity of hardware and software according to the position and altitude tracking of the sun and its control. It is pointed out as a problem that cannot be overlooked.

In view of this, the source technology of the present invention is to install several transverse shafts on one main shaft, rotate the main shaft with one driving means, and provide a power transmission means of link structure for each solar cell module panel installed on the several transverse shafts. The solar tracking device (10-2007-90970) has provided a solar tracking device with a stable structure that is not only simple in structure and control but also does not generate vibration on the horizontal axis even by wind. In the structure, in the case of constituting several main shafts, the installation cost is increased by separately installing driving means for pivoting the main shaft.

In addition, as the link connecting means installed for adjusting the angle of the solar cell module panel assembled on the horizontal axis installed in each of several spindles must be installed in each of the horizontal shafts, the construction cost increases, and as described above, a plurality of solar cells The link connecting means installed in the module panel has a very weak structural strength maintained by one type of transverse drive means when exposed to strong wind pressure for a long time.

In view of the above, in the present invention, as the support structure of the main shaft 20, the flange is formed on the upper and lower ends, the ground flange is installed on the anchor bolt of the post foundation stone 11, the upper flange is connected between the main shaft 20 And a post 10 in which the rotating shaft bearing block 24 of the main shaft connecting module 20A for the bolt is assembled.

The main shaft connecting module 20A is assembled with a rotating shaft bearing block 24 on the rotating shaft 23, and the main shaft flange 21 is fixed at both ends, and the main shaft 20 is bolted at a length of 6M per span at both ends of the main shaft flange. ;

The main shaft 20 may include a center spindle 22 having main shaft flanges 21 formed at both ends thereof;

Two main shafts assembled with the main shaft connection module 20A are installed on the post 10, and a solar cell module installation frame 31 is assembled with three sets of one main shaft each to the left and right of the center spindle;

Each of the lower ends of the center spindle 22 has a link 52 in which a link bracket 53 is integrally mounted to the lower side by bolt assembly to a welded flange;

 The link brackets are integrally formed at both ends of the link bracket 51 so that the link pins 54 are hinged to each other;

Between the connecting unit 55, both ends of the connection between the flange 51 is welded, the second end is a long hole bracket 56b formed with two long holes (56a) up and down the distance between the welded flange 51 A connecting rod 50 to which the redundant hole bracket 56 is bolted;

A bolt stopper 62 in a stopper bracket 61 in which a plurality of bolt holes are formed at the upper and left sides of the stopper post 63 assembled with anchor bolts on a stopper base stone 64 formed in the ground in one of the intermediate positions of the connecting rod 50. Interconnection stopper 60 is provided with;

The screw jack brackets on the link pins 54 of the connection unit 55 are provided only at the link 52 provided at the lower end of the center spindle 22 in one row of the six rows of the main shafts 20 assembled in each link. 72 is hinge-assembled to provide a tracking photovoltaic device comprising a screw jack 70, the screw jack connecting rod 71 is extended, by the six-row group interlocking type according to the season of the sun The altitude angle is to be manually operated, but to provide a tracking photovoltaic device for integrally rotating a plurality of solar cell module plate according to the direction of the sun moving tides with a screw jack.

The tracking photovoltaic device according to the present invention is a single screw jack installed in the orthogonal direction of a plurality of rows of main shafts connected to each other by manually operating the altitude of the sun according to the season. By interlocking multiple rows of spindles simultaneously, it brings economic effects in terms of maintenance costs and installation costs.

In addition, in the present invention, when the wind pressure is applied to the solar cell module, the wind pressure applied to a set of screw jacks is provided by providing a stopper between connections that is easily constructed at a low cost at a point between link connections orthogonally connected to a plurality of rows of main axes. It is distributed to the stopper between the connection and the separate connection between the bottom of the connection to supplement the durability of the photovoltaic device and to prevent the distortion of the various supporting structures.

In view of the above, in the present invention, the south mid-angle elevation of the sun according to the season is manually operated, but a plurality of rows of the main shaft by a single screw jack installed in the orthogonal direction of the plurality of rows of the main shaft connected between the link links. This is to make it work at the same time.

In addition, the south middle altitude control of the solar cell module panel installed on a plurality of horizontal axis installed in each of the main shaft to simplify the maintenance by the manual operation of the altitude adjustment support for each season.

In addition, in the present invention, when the wind pressure is applied to the solar cell module, by providing a stopper between the connection at one point between the link connection orthogonal to the main axis of a plurality of rows, the screw by the wind pressure applied to a set of screw jack provided in the present invention This is to prevent distortion between the link connection due to damage to the jack or wind pressure on the solar cell module.

In order to achieve the above object, it will be described an embodiment of the present invention by the accompanying drawings as follows.

1 is a plan view of a six-column group construction state in which 12 solar cell module installation frames are installed for each column according to the present invention. As shown in the figure, the tracking photovoltaic device of the present invention is a six-column group interlocking type in which 12 types of solar cell module installation frames are installed on a horizontal axis installed at regular intervals every one row, and the entire solar cell module is installed in the solar cell module installation frame with tides. The panel (not shown) is rotated integrally in accordance with the east-west direction, and the south and middle altitude for each season relates to a device for manually manipulating the height of the solar cell module installation frame.

2 is a front view of any one row of transverse assembled states supported by a post supported by a basic anchor bolt, and (ii) is a screw of a type 1 body linked between five sets of connections. Longitudinal construction assembly state side view of the main shaft driven by the jack, (ⅲ) is a construction assembly state side view showing the east-west direction tracking state of the solar cell module installation frame by the screw jack, Figure 3 is a part omitted construction in accordance with the present invention Assembled state perspective view.

Hereinafter, the photovoltaic device at the time of tracking according to an embodiment of the present invention with reference to the drawings includes a post 10, a main shaft 20, a horizontal axis 30, a solar cell module installation frame 31, and an altitude adjustment support piece ( 40), between the connection 50, the connection between the stopper 60, the screw jack 70 is configured.

The post 10 is a support structure of the main shaft 20, the flange is formed on the upper and lower ends, the ground flange is installed on the anchor bolt of the post foundation stone 11, the upper flange for the connection and rotation between the main shaft 20 The rotating shaft bearing block 24 of the main shaft connection module 20A is assembled with bolts.

 The main shaft connection module 20A is configured by assembling the rotary shaft bearing block 24 to the rotary shaft 23 and fixed to the main shaft flanges 21 at both ends.

The main shaft 20, which is bolted to both ends of the main shaft flange of the main shaft connecting module 20A, has a length of 6M per span and a main shaft flange 21 is formed at both ends of the main shaft flange.

The main shaft 20 has two main shafts each assembled to the main shaft connecting module 20A at left and right sides of the center spindle 22 in which the main shaft flanges 21 are formed at both ends, and are supported by the post 10. Each of the three sets of solar cell module installation frame 31 is assembled.

The solar cell module installation frame 31 is a high-adjustment support piece (40) for assembling the bolts in several bolt assembly pin holes formed on both side brackets integrally with the upper bracket is formed bolt assembly holes; The height adjustment hinge piece 41 which consists of the bracket and the lower assembly piece hinge-assembled integrally with the upper bracket in which the bolt assembly hole is formed is installed on the horizontal axis 30 to be welded.

The lower end of each of the center spindle 22 is equipped with a link 52 in which a link bracket 53 is integrally formed at the lower side by bolt assembly to a welded flange, and a connection between the flange 51 is integrally formed at both ends of the link bracket. The unit 55 is hinged by the link pin 54.

Between the connection unit 55, both ends of the connection between the flange 51 is welded, the second end is connected between the flange 51 is welded with a long hole bracket 56b formed with two long holes (56a) up and down The connecting rod 50 is assembled with the distance-running hole bracket 56 bolted thereto.

On the other hand, the link pins 54 of the connecting unit 55 hinged to the link 52 provided at the lower end of the center spindle 22 of the first row of the six rows of the main shaft 20 of each link assembled by the connection between the 50 The screw jack bracket 72 of the screw jack 70 in which the screw jack connecting rod 71 is extended is hinged.

The support structure of the post structure 10 and the screw jack 70, which is a support structure on which the spindle connection module 20A assembled on both sides of the center spindle 22 in one row, is assembled and supported, is integrated into a single screw jack foundation stone 73. Anchor bolts are fastened.

In addition, the connecting rod 50 bolted to the connecting unit 55 hinged to the link 52 provided at the lower end of the center spindle 22 in the fifth row and the sixth row has a stopper base stone formed in the middle position of the ground. An anchor bolt (64) is embedded on the inter-stopper (60) consisting of a stopper bracket (61) formed with a plurality of bolt holes on the left and right sides of the stopper post (63) at the top of the stopper post (63).

On the other hand, another embodiment of the altitude adjustment support piece 40 for manually manipulating the assembly angle of the solar cell module installation frame 31 according to the present invention as shown in FIG. Steel brackets are formed of angle brackets, angle steel pipes, and square steel pipes formed on both sides of the upper bracket to be formed by bending the height adjustment support piece 40, which forms several bolt assembly pin holes, or both sides of the upper bracket on which bolt assembly holes are formed. The altitude adjustment support piece 40 etc. which formed the furnace bracket and formed the several bolt assembly pin holes according to the embodiment predictable by this invention.

Looking at one embodiment of the present invention configured as described above are as follows.

The tracking photovoltaic device according to the present invention is constructed in units of 6 rows, in which 12 types of solar cell module frames are installed for each row, and includes a link 52 assembled at the bottom of the center spindle 22 provided in the middle of each row. The connecting rod 50 hinged by the link pin on the link bracket 53 is standardly installed at a distance of 4M between the rows.

Therefore, although the distance between the connections 50 manufactured at the time of shipment is constant, in view of the construction site-based assembly conditions, one end of the connection 50, as shown in FIG. 4, has two long holes 56a. By bolting the distance-mounting long hole bracket 56, which is provided with a welded flange 51 on one side of the formed long hole bracket 56b, it is possible to shorten the convenience and air at the construction site.

Meanwhile, the tracking photovoltaic device according to the present invention, which is constructed in units of six rows, in which 12 type solar cell module frames are installed for each row, is located at the bottom of the center spindle 22, which is the middle of each of six rows in which the solar cell module installation frames are installed. A screw jack 70 hinged to the link pin 54 of the connection unit 55 hinged to the link 52 provided at the lower end of the center spindle 22 of the first row among the six rows of the assembled center spindle 22. ) Is combined.

Therefore, by the control means (not shown) provided in the conventional tracking type photovoltaic device, the screw jack is operated between tidal phases, and the rotating shaft built up on the rotating shaft 23 of the post 10 by the stretching operation of the screw connecting rod. The whole spindle 20 constructed in six-row group units flanged to the spindle coupling module 20A assembled in the bearing block 24 has the orientation fluctuating between tides from east to west.

On the other hand, the screw jack basestone 73 is installed in the ground to strengthen the basic foundation of the screw jack 70 provided in the apparatus of the present invention constructed in units of six rows as described above, the center spindle 22 of the adjacent first row The post foundation stone 11 of the supported post 10 is integrally constructed so as to strengthen the durability by supporting the reaction force along the expansion and contraction of the screw jack connecting rod provided in the screw jack together with the connecting rod.

The above-described screw jack and screw jack foundation stone also strengthen the structural strength of the apparatus of the present invention constructed in six-row group units, and at the same time, when a similar situation occurs due to bad weather such as typhoon or strong wind, As a countermeasure against the wind pressure received by each solar cell module assembled to the module installation frame, hinge assembly is performed on the link 52 provided at the bottom of the center spindle 22 of the fifth row and the sixth row of the present invention, which are constructed in a six-row group unit. The second auxiliary device is installed in the connecting section 50 bolted to the connected connection unit 55.

That is, the connecting rod 50 installed on the outermost opposing side of the screw jack moves the screw jack to position the link 52 downward, and then the anchor bolt is assembled to the stopper foundation stone 64 formed in the ground. An embodiment assembled on the main shaft of each row hinged between the screw jack and the connection provided in the present invention by sandwiching the connection between the stopper brackets 61 assembled on the posts 63 to penetrate the bolt stopper 62. In preparation for the reaction force due to the wind pressure applied to the battery module, as compared with the addition of a fixing device for each tracker unit in which the solar cell module is installed, the structural strength is economically provided.

On the other hand, as a further function of the present invention, a large portion of the construction cost was occupied by the fixing means prepared separately for the previous spindles, and it was a burden in terms of maintenance cost. One side of the solar cell module installation frame 31 to be installed on the main shaft 20 for convenience in adjusting the installation angle of the solar cell module installation frame 31 in which the solar cell module is installed by the device shown in FIG. As can be simplified by the altitude adjustment support 40 and the altitude adjustment hinge (41).

In other words, according to the Earth's revolution and tilted rotation axis, the angle of the solar cell module installation frame assembled on the main shaft is adjusted by hand only twice a year and winter solstice two times a year according to the altitude of the sun.

In order to adjust the angle of the solar cell module installation frame according to the present invention, the horizontal axis located in the south of the two horizontal axes 30 orthogonally assembled on the main shaft 20 is assembled to the height adjustment hinge piece 41, the north The horizontal axis positioned is assembled to the altitude adjustment support 40.

Therefore, the angle adjustment of the solar cell module installation frame assembled on the main axis for each season is to adjust the height of the height adjustment support piece 40 by assembling the bolt holes attached to the left and right bracket divided by the season.

At this time, the altitude adjustment hinge piece 41 located in the south does not need to adjust the height, and the altitude adjustment hinge piece 41 consisting of a lower assembly piece hinged and a bracket formed in both lower parts integrally with the upper bracket where the bolt assembly hole is formed. By welding on the main axis, the horizontal axis 30 is assembled.

The tracking solar cell apparatus of the present invention described above and illustrated in the drawings will be apparent to those skilled in the art to be within the protection scope of the present invention.

1 is a plan view of a six-column group construction state in which 12 solar cell module frames are installed for each column according to the present invention;

2 is a front view of any one row of transversely assembled states supported by a post supported by a basic anchor bolt, and (ii) is a screw jack of a type 1 body linked between five sets of connections. Longitudinal construction assembly state side view of the main shaft driven by (ⅲ) construction assembly state side view showing the east-west direction tracking state of the solar cell module installation frame by the screw jack.

Figure 3 is a perspective view of some omitted construction assembly according to the present invention.

Figure 4 is a main part according to the present invention (i) is a perspective view of the long hole bracket for distance ranging, (ii) the assembled state of the distance hole long bracket for the assembly between the connection and the connection unit.

5 is a main part according to the present invention (iii) reference state of use of the altitude adjustment support piece, (ii) reference state of use of the altitude adjustment hinge piece.

Figure 6 is another application embodiment of the height adjustment support piece according to the present invention.

※ Explanation of code for main part of drawing

10: Post 11: Post Foundation Stone

20: spindle 20A: spindle connection module

  21: spindle flange 22: center spindle

  23: rotating shaft 24: rotating shaft bearing block

30: horizontal axis 31: solar module mounting frame

40: height adjustment support 41: height adjustment hinge

50: between connections 51: flange between connections

  52: Link 53: Link bracket

  54: Long hole bracket for distance catching 55: Connection unit

60: Stopper between connection 61: Stopper bracket

  62: bolt stopper 63: stopper post

  64: stopper foundation stone

70: screw jack 71: screw jack connecting rod

  72: screw jack bracket 73: screw jack basic stone

Claims (4)

It is a six-column group interlocking type, which allows the solar mid-high altitudes to be manually operated according to the season, but the tracking solar power unit rotates a plurality of solar cell module boards in one screw jack according to the direction of the sun moving toward tides. In the device, As the support structure of the main shaft 20 with a flange formed on the upper and lower ends, the ground side flange is installed in the anchor bolt of the post foundation stone 11, the upper flange of the main shaft connecting module (20A) for connection and rotation between the main shaft (20) A post 10 in which the rotating shaft bearing block 24 is bolt-assembled; The main shaft connecting module 20A is assembled with a rotating shaft bearing block 24 on the rotating shaft 23, and the main shaft flange 21 is fixed at both ends, and the main shaft 20 is bolted at a length of 6M per span at both ends of the main shaft flange. ; The main shaft 20 may include a center spindle 22 having main shaft flanges 21 formed at both ends thereof; Two main shafts assembled with the main shaft connection module 20A are installed on the post 10, and a solar cell module installation frame 31 is assembled with three sets of one main shaft each to the left and right of the center spindle; Each of the lower ends of the center spindle 22 has a link 52 in which a link bracket 53 is integrally mounted to the lower side by bolt assembly to a welded flange;  The link brackets are integrally formed at both ends of the link bracket 51 so that the link pins 54 are hinged to each other; Between the connecting unit 55, both ends of the connection between the flange 51 is welded, the other end is connected between the flange 51 of the long hole bracket 56b formed with two long holes (56a) up and down welded bolts The distance between the long hole bracket 56 is bolted to the connection between the 50; A bolt stopper 62 in a stopper bracket 61 in which a plurality of bolt holes are formed at the upper and left sides of the stopper post 63 assembled with anchor bolts on a stopper base stone 64 formed in the ground in one of the intermediate positions of the connecting rod 50. Interconnection stopper 60 is provided with; The screw jack brackets on the link pins 54 of the connection unit 55 are provided only at the link 52 provided at the lower end of the center spindle 22 in one row of the six rows of the main shafts 20 assembled in each link. Tracked photovoltaic device characterized in that the 72 comprises a screw jack 70 is hinged assembled screw jack connecting rod (71) extended. According to claim 1, The solar cell module installation frame 31 is a height adjustment support piece 40 for assembling a bolt formed with several bolt assembly pin holes on both sides integrally with the upper bracket formed bolt assembly hole; The tracking photovoltaic power generation device, characterized in that it is installed on the main shaft (20) by a height adjustment hinge piece (41) consisting of a lower assembly piece assembled with a hinge bolt and a bracket formed in both lower parts integrally with the upper bracket formed bolt assembly hole. . According to claim 1, the support structure of the screw jack 70 is a screw jack foundation stone integrally with the post 10 is assembled and supported by the spindle connection module 20A assembled on both sides of the center spindle 22 in a row ( Tracked photovoltaic device, characterized in that built in (73). According to claim 2, Highly adjustable support piece 40 is characterized in that the bolt is formed by forming a bracket of any one of the steel, selected from the angle of the angle bracket, the steel pipe, the square steel pipe on the lower side of the upper bracket is formed bolt holes formed several bolts Tracking photovoltaic device.

Images