SK5284Y1 - Set of photovoltaic cells on panels with an adjustable position - Google Patents

Abstract

The present invention concerns to a set of photovoltaic cells on panels with an adjustable position, where the set comprises at least one movable supporting construction where panels equipped by photovoltaic cells are carried on, a foundation for carrying this movable supporting construction with photovoltaic cells, and a positioning driving device. The foundation (1) is consisting of two stands (11,12), having a different height, where each of them having on its top a supporting place (111,121), adjusted for a rocking coupling with a movable supporting construction (2), this movable supporting construction (2) being created as in longitudinal direction laying main longitudinal beam (21), to which supporting cross beams (23) are fixed in regular relative distances, corresponding the dimensions of the photovoltaic panels (22) with photovoltaic cells, where those supporting cross beams (23) are adjusted for carrying of said photovoltaic panels (22) with photovoltaic cells, and further, the ends of the main longitudinal beam (21) are adjusted for pivoting in bearing places (111,121) of the stands (11,12) of the foundation (1), where in the meantime, the positioning driving device is created as a linear electric drive (3) or hydraulic drive, coupled by a driving mechanical coupling (31) to a movable supporting construction (2) and connected by governing linkage (41) to a governing device (4).

Description

The technical solution concerns photovoltaic cells, namely a set of such cells in the form of a panel or panels placed on a rack or racks, which simultaneously solves the rotation of the panels to an optimum angle in relation to the direction of the incident solar rays.

BACKGROUND OF THE INVENTION

At present, photovoltaic cells and their assemblies in the form of panels are known. It is also known to rotate such panels so that the sun's rays fall as perpendicularly as possible to the panel surface. Considering the relatively greater weight of the panels, when constructing a system of not only an auxiliary power supply type for electronic devices with low power consumption, respectively. for recharging relatively small sources, but of the type that supplies power consumers or even has to supply energy to the grid, in such cases, in the latter situation, the supporting structure must be designed so that on the one hand such a structure is relatively light, The rotation did not require a strong and energy-intensive and demanding drive, but at the same time that such a construction not only could safely bear the relatively high weight of each such photovoltaic cell panel, but also to withstand static and dynamic forces from possible wind blast or snow overload. Current conventional structures are formed as frames mounted rotatably on a stable wide pedestal, where each drive is also attached to each such structure by a drive, generally regulated by a plurality of directed photocells. Such constructions, precisely in order to meet the strength requirements described above, are based on relatively complicated and demanding materials, and the individual pivoting drives are also relatively expensive. Especially demanding are the constructions where it is solved, both in terms of the construction of the panel and the pedestal, as well as in terms of the angles, the rotation in the direction of both the daily and annual relative movement of the sun to the earth. In this case, the price of the plant is usually so high that the energy from the photovoltaic source thus created exceeds the highly subsidized feed-in tariffs for electricity from renewable sources.

The essence of the technical solution

The above drawbacks are solved to a large extent by the array of photovoltaic cells on positioning panels, according to the present invention, wherein the assembly comprises at least one movable support structure with fixed photovoltaic cell panels, a base for supporting such movable support structure with photovoltaic panels and a pivoting device. the base is formed as a pair of racks of different heights, each rack having at its top a storage space adapted to rotatably support the movable support structure, the movable support structure being formed in the form of a longitudinally directed base beam to which they are fixed at intervals corresponding to width photovoltaic panel panels, support beams, adapted to accommodate photovoltaic panel panels, and wherein the ends of the base beam are adapted to be rotatably mounted in storage locations t at the base stands, while at the same time the pivoting device is formed as a linear electric drive or hydraulic motor, connected by a mechanical drive linkage with a movable supporting structure and simultaneously connected by a control linkage with the control device. as a triangular planar structure with two vertices at the ground and a third vertex at a height, wherein the planar triangular structure of the upper stand is formed as two longer hollow profiles, spaced down at a pitch with concrete spaced at the bottom and joined by a crossbar attached to the upper yoke the upper end of the base beam of the movable support structure and at the same time the lower stand is formed as a pyramid with a triangular base.

Another object of the invention is that the lower stand is formed from a shorter hollow profile welded tripod, concreted into the ground, interconnected with shorter hollow profiles on an inclined platform to which a lower yoke is attached, adapted to accommodate the lower end of the base beam of the movable support structures.

The principle of the technical solution is also that the system comprises at least two movable supporting structures, each standing in a row side by side and mounted on two stands of different heights, where each base beam is equipped with a two-arm connecting crossbeam. strands, each connected to the ends of the two-arm or two-arm connecting beams of adjacent or adjacent movable load-bearing structures.

In order to avoid possible oscillation of the system, the essence of the technical solution consists in the fact that from the extent of the support beams supporting photovoltaic panels

SK 5284 Υ1 of the electric drive and the mounting of the two-arm connecting beam on the base beam is at least one bearing designed as a flexible bearing with damping.

Furthermore, the present invention is based on the fact that the damping bearing is designed as a clamping of the base beam by the corresponding clamping yoke over the elastomer insert.

Finally, the essence of the invention is that the control device of the linear electric drive or the hydraulic motor is designed as a timer with an interval switch. It is particularly advantageous if the timer has set steps after 10 to 60 minutes and the interval switch has switch-on intervals of 1 to 60 seconds.

In this way, a system of photovoltaic cells is achieved where such a structure is very strong and stable, both against the stresses at adjusting the angle of the panels and against the effects of wind, rain or snow, and at the same time the structure itself is light, simple and relatively cheap. its transport and assembly will also be very simple, and in the case of a large number of constructions it is possible to position the whole assembly either by several separate drives or only one, and in addition also relatively cheap drive, can be used for positioning the whole assembly.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is further described and explained in more detail by way of example, also with reference to the accompanying drawings, in which: FIG. 1 is one movable structure on a stand in side view, FIG. 2 is a detail of the support beam attachment on the base beam of the movable structure, in cross-sectional vertical section; FIG. 3 is the same construction as in FIG. 1, but now in front view, and still in FIG. 4 is a schematic front view of the entire assembly of two movable structures interconnected and supported on their stands.

Example of technical solution

The structure of the exemplary embodiment, in accordance with the present invention, is formed such that the array of photovoltaic cells on the positioning panels comprises two movable supporting structures 2 with fixed photovoltaic panels 22 with photovoltaic cells, a base 1 for supporting both such movable supporting structures 2 s. photovoltaic panels 22 and a pivoting device. The base 1 is always formed as a pair of stands 11, 12 of different heights, where each stand 11, 12 has a storage space 111,121 at its top. adapted to rotatably support the movable support structure 21, wherein the movable support structure 21 is each formed in the form of a longitudinally directed base beam 21, to which support beams 23 are fixed at regular intervals, adapted to receive photovoltaic panels 22. adapted to be rotatably mounted to receiving locations 111,121 on stands 11, 12 of each base 1. The pivoting device is here formed as a linear electric drive 3, connected by a drive mechanical coupling 31 to a movable supporting structure 2 and connected by a control coupling 41 to a control device 4, of the stands 11, 12 of different heights, the higher stand 12 is formed as a planar triangular structure with two peaks at the ground and a third peak at a height, while the lower stand 11 is formed as a pyramid with a triangular base. The planar triangular structure of the upper stand 12 is formed here, in particular, with longer hollow sections 1201, formed as two tubes downwardly spaced into the ground and joined by a crossbar 1202 on which a top yoke 1203 is mounted adapted to receive the upper end of the base beam 21 of the movable support The lower stand 11 is then always formed here from shorter hollow sections 1101, here in particular from tubes, a welded tripod, embedded in the ground, on top with an interconnection of these tubes by an inclined platform 1102, to which a lower yoke 1103 adapted to receive In the movable supporting structure 2, the base beam 21 is formed here as a tube, axially mounted at the ends by a smaller diameter shaft on which the bearing is always mounted, and at the same time the supporting beam 21 is fastened to the base beam 21. 21, in the form of flat square hollow profiles. The fastening of the support beams 23 to the base beam 21 is formed here in such a way that each support beam 23 is fixed in its center by means of a clamping yoke 231, which is always pulled around the base beam 21. The linear electric actuator 3 is supported by one end on the The concreted part of the tubes of the lower stand 11 and the other end is mounted on a drive arm connected to the base beam 21 of the movable support structure 2. As part of the drive arm, a portion of the support beam 23 of the movable support structure 2 is used. as a timer with an interval switch, so that the timer is set in steps of 30 minutes and the switch-on intervals are set to 20 seconds. The system of photovoltaic cells here contains two movable supporting structures 2, arranged in a row side by side

SK 5284 Υ1 a pair of stands 11, 12 of different heights, where at the same time each base beam 21 is at its upper end equipped with a double-arm connecting beam 211, at the ends of which ropes 212 are fastened, connected to the ends of the two-arm connecting beam 211 of the adjacent movable supporting structure

2. Further, there is provided a measure to prevent possible oscillation of the system with several movable supporting structures 2, which is achieved by placing the support beams 23 carrying the photovoltaic panels 22, placing the drive beam of the linear electric drive 3 and placing the two-arm connecting beam 211 on the base beam. 21 is formed as a damping bearing with damping, where such damping bearing with damping is here formed as the clamping of the base beam 21 by the clamp yoke 231 over the elastomer insert.

The function of the device is as follows. The electricity is generated on the assembled and electrically connected equipment in the sunlight. The movable support structure 2 is appropriately directed towards the sun, with the angle between the base beam 21 and the ground surface being 30 degrees here, which, for an alternative with a constant base inclination, seems optimal at latitudes of about 50 degrees. Laterally, the movable support structure 2, supported by a swinging stand on the stands 11, 12, is rotated under the sun throughout the day, with a rotation of 20 seconds in total, in 16 steps, every half hour. After the last forward step, a reverse step is engaged in the overall cycle by which the movable structure is rotated backward to the starting position for the morning direction of illumination.

Industrial usability

The device according to the present invention is usable as a system carrying, in particular, individual photovoltaic cells, commercially supplied by themselves, where the use of a structure of the same type would be actual for carrying solar panels for heating water or air.

Claims (6)

A system of photovoltaic cells on positioning panels comprising at least one movable support structure with fixed photovoltaic cell panels, a base for supporting the movable support structure with panels and a pivoting device, wherein the base (1) is formed as a pair of stands (11, 12) of different heights and wherein each stand (11, 12) has at its top a receiving space (111, 121) adapted to rotatably support the movable support structure (2), the movable support structure (2) being formed in the form of a longitudinally directed base beam (21), to which they are fixed at spacing, arranged in accordance with the width of the supported photovoltaic panels (22), support beams (23) adapted to receive photovoltaic panels (22), and wherein the ends of the base beam (21) are adapted to rotatably mount into the storage locations (111, 121) on the stands (11, 12) of the base (1), while simultaneously rotating The cutting device is designed as a linear electric drive (3) or a hydraulic motor, which is connected by a mechanical drive coupling (31) to a movable supporting structure (2) and simultaneously connected by a control coupling (41) to a control device (4). in a pair of stands (11, 12) of different heights, the higher stand (12) is formed as a planar triangular structure with two vertices at the ground and a third peak at a height, wherein the planar triangular structure of the higher rack (12) is formed as two longer hollow profiles ), spaced down into the ground at the bottom and joined by a partition (1202) on top of which a top yoke (1203) is attached, adapted to receive the upper end of the base beam (21) of the movable supporting structure (2) and the lower stand (11) constructed as a pyramid with a triangular base. A set of photovoltaic cells on positioning panels according to claim 1, characterized in that the lower stand (11) is formed from shorter hollow sections (1101) welded tripod, embedded in the ground, on top with interconnection of shorter hollow sections (1101) an inclined platform (1102) to which a lower yoke (1103) is attached, adapted to receive the lower end of the base beam (21) of the movable support structure (2). A set of photovoltaic cells on positioning panels according to claims 1 and 2, characterized in that the assembly comprises at least two movable supporting structures (21), each stacked side by side and stacked on a pair of stands (11, 12) of different heights wherein, at the same time, each base beam (21) is provided with a two-arm connecting beam (211) at the ends of which tie rods or cables (212) are attached, connected to the ends of the two-arm or two-arm connecting beams (211) of adjacent or adjacent movable supporting structures (21). ). A set of photovoltaic cells on positioning panels according to claims 1 to 3, characterized in that from the range of support beams (23) supporting the photovoltaic panels (22), the drive beam of the linear electric drive (3) and the two-arm connecting beam (211) ) on the base beam (21), the at least one bearing is designed as a damping spring bearing. SK 5284 Υ1 A set of photovoltaic cells on positioning panels, according to claim 4, characterized in that the resilient mounting with damping is formed as a clamping of the base beam (21) by the respective clamping yoke over the elastomer insert. A system of photovoltaic cells on positioning panels according to claims 1 to 5, characterized in that the control device (4) of the linear electric drive (3) or of the hydraulic motor is designed as a timer with an interval switch, wherein the timer has set 10 to 60 minutes, and the interval switch has a switch-on interval of 1 to 60 seconds. 3 drawings