RU160476U1 - SOLAR POWER INSTALLATION - Google Patents

Abstract

A solar power plant, including a solar battery, consisting of concentrating modules with Fresnel lenses and receiving photoelectric converters, a solar system for orienting the solar battery to the sun, including an electric drive control system, a mechanical system that maintains the perpendicular position of the solar battery toward the sun, including the base frame, mounted for rotation around a vertical axis with support wheels, at least one of which is sn It is required by an electric drive, characterized in that the solar power installation further comprises a horizontal support platform with an annular rail mounted on it, the annular rail is equipped with a gear track, the base frame is mounted on the annular rail with the support wheels, and the support wheels are additionally equipped with gear wheels that provide interaction with the gear ring rail track, the electric drive of the support wheels is made in the form of a stepper motor with a gearbox, to reduce a single step turning the base frame, the base frame further comprises horizontally oriented transverse load-bearing rails rigidly connected to it, vertical racks are installed at both ends of each transverse load-bearing rail, a bearing assembly is made at the top of each vertical strut, and at least one of the vertical racks of each transverse load-bearing the rails are equipped with an electric drive, made in the form of a stepper motor with a gearbox, to reduce a single step of the angular movement of the solar battery, the solar ba

Description

The utility model relates to the field of solar energy, in particular, to concentrating solar photovoltaic installations designed to produce electrical and thermal energy.

The closest analogue of the utility model is a solar power plant (patent for invention RU 2286517 “Solar photovoltaic installation”, IPC F24J 2/42), containing a solar battery with Fresnel lenses and radiation-receiving photoelectric converters, placed on a mechanical system that maintains the perpendicular position of the solar battery to direction to the Sun and equipped with a solar battery orientation system for the Sun, characterized in that the supporting mechanical system is formed by two frames mi - base and suspended, of which the base frame is mounted for rotation around a vertical axis, relying on the underlying surface with wheels, one of which is equipped with an electric drive, and the suspended frame is mounted for rotation around a horizontal axis from the electric drive, while the solar battery itself consists of concentrating modules located on a suspended frame in the form of steps, and the battery orientation system contains the main and additional sensors of the position of the Sun, the main of which It consists of a shading screen with a hole and eight cascade-type photocells, four of which are located on the right, left, top and bottom on the outer sides of the screen and form azimuthal and anti-aircraft coarse guidance channels that generate electrical signals when the position of the Sun changes, and four other photocells are located such In the same way, on the inner sides of the screen they form precise guidance channels, the mentioned additional sensor consists of three cascade type photocells connected to the azimuthal anal, two of which are directed left and right with respect to the main sensor, and the third is in the opposite direction, and the polarity of its connection changes when passing the South-North direction, while the signal to turn on the electric drive of the base frame wheel is supplied from the photocells of the azimuth channel, and a signal to turn on the electric drive of the suspended frame is supplied from photocells of the anti-aircraft channel

The signs of the closest analogue, which coincide with the essential features of the utility model, are the presence of a solar battery in a solar power plant, consisting of concentrating modules with Fresnel lenses and receiving radiation by photoelectric converters, a solar battery orientation system for the sun, including an electric drive control system, a mechanical system that supports perpendicular the position of the solar battery in the direction to the sun, including the base frame, installed with the possibility rotation around a vertical axis by means of support wheels, at least one of which is equipped with an electric drive.

The technical result of the utility model is to increase the manufacturability of the production and installation of elements of a solar power plant by simplifying the design and small size of the modules, reducing the wind load on the elements of the solar power plant by locating all the modules at a low altitude, and reducing the energy cost of tracking the sun through the use of step-by-step engines, rail turning system and reducing wind load, improving the accuracy and stability of tracking the sun due to Menenius gear track extension functionality through the introduction of heat energy utilization system.

The closest analogue has the following disadvantages that impede the receipt of the specified technical result of a utility model. The base frame is supported directly by wheels on the underlying surface, which does not provide economical and stable operation of the azimuthal orientation system due to friction and the absence of a rigid anchoring of the base frame to the underlying surface. Also, due to the cascading arrangement of the modules on the suspended frame, the height of the structure increases, which leads to an increase in wind load. In addition, the installation does not utilize useful thermal energy, which is released by illuminating the solar cells with concentrated sunlight.

The utility model is based on the technical task of improving the design of the closest analogue, which will allow to increase the accuracy and stability of tracking the sun, simplify the design and increase the manufacturability of the production and installation of elements of a solar power plant, reduce the wind load on the supporting structures of a solar power plant, ensure the joint production of electrical and thermal energy in a solar power plant.

The stated technical problem is solved in that a solar power installation, including a solar battery, consisting of concentrating modules with Fresnel lenses and receiving radiation by photoelectric converters, a solar battery orientation system to the sun, including an electric drive control system, a mechanical system that maintains the perpendicular position of the solar battery in the direction in the sun, including the base frame, mounted to rotate around a vertical axis with and support wheels, at least one of which is equipped with an electric drive, according to a utility model, the solar power installation further comprises a horizontal support platform with an annular rail mounted on it, the annular rail is equipped with a gear track, the base frame is mounted on the annular rail with the support wheels, support wheels additionally equipped with gears providing interaction with the gear track of the ring rail, the electric drive of the support wheels is made in the form of a step electric wig with gear, to reduce a single step of rotation of the base frame, the base frame additionally contains horizontally oriented transverse support rails rigidly connected to it, vertical racks are installed at both ends of each transverse carrier rails, a bearing assembly is made at the top of each vertical strut, and at least at least one of the vertical posts of each transverse carrier rail is equipped with an electric drive made in the form of a stepper motor with a gearbox to reduce a single w aha angular movement of the solar battery, the solar battery consists of concentrating modules combined in horizontally oriented rows, made with the possibility of angular movement relative to its horizontal axes, placed above each transverse carrier rail of the base frame, each row is formed interconnected by means of butt cushions and threaded connections, concentrating modules, the extreme in each row concentrating modules additionally contain carrier tubes, made with the possibility of In order to fix in the bearing units of the uprights, the bearing tubes are equipped with gears, for interaction with electric drives on the uprights, each row of concentrating modules contains a cooling tube with a circulating coolant located on a straight line passing through the foci of the Fresnel lenses of each concentrating module, each photoelectric converter a concentrating module located in the focus of the Fresnel lens, mounted on a cooling tube with a circulating coolant, cooling The tubes of each row of concentrating modules are interconnected by flexible polymer tubes.

Between the totality of the essential features of a utility model and the achieved technical result, there is the following causal relationship. The set of essential features of a utility model is a necessary and sufficient condition for achieving a technical result. Implementation of a solar power installation comprising a horizontal support platform with an annular rail mounted thereon equipped with a gear track, a base frame mounted on the annular rail with support wheels equipped with gears for engaging with the gear track of the annular rail, and electric support wheels in the form of a stepper motor with a gearbox, which allows to reduce a single step of rotation of the base frame, will reduce energy costs in the next keeping the sun through the use of stepper motors of the rail rotary system, to increase the accuracy and stability of tracking the sun. The implementation of the solar battery, consisting of concentrating modules located on the base frame in the form of horizontally oriented rows, made with the possibility of angular movement relative to its horizontal axes, the execution of each row of concentrating modules formed interconnected by means of butt pads and threaded connections of the concentrating modules, base frame containing horizontally oriented transverse load-bearing rails rigidly connected to it, located under each smoke near the concentrating modules, while vertical racks are additionally installed on the edges of the load-bearing rails, and a bearing assembly is made at the top of each vertical rack, and at least one of the vertical racks of each transverse load-bearing rail is additionally equipped with an electric drive made in the form of a stepper motor with a reducer and the extreme in each row concentrating modules additionally contain carrier tubes made with the possibility of fixing in the bearing nodes of the vertical racks, and is made The carrier tubes equipped with gears, providing interaction with electric drives on vertical racks and allowing angular movement of the rows of concentrating modules, will reduce the wind load on the elements of the solar power plant due to the location of all the concentrating modules at a low height, and reduce the cost of energy for tracking the sun and improve the accuracy of tracking the sun through the use of stepper motors with gears. The execution of each row of concentrating modules, containing a cooling tube with a circulating coolant, located on a straight line passing through the foci of the Fresnel lenses of each concentrating module, and placing the photoelectric converter of each concentrating module in the focus of the Fresnel lens and performing it mounted on the cooling tube with a circulating coolant, this is the implementation of the cooling tubes of each row of concentrating modules, interconnected by flexible polymer tubes, It will expand the functionality by utilizing thermal energy.

The invention is illustrated by graphic material, which shows: in FIG. 1 is a perspective view of a solar power plant in a perspective view; in FIG. 2 - the main elements of the rail rotary system in a perspective view; in FIG. 3 - supporting-drive mechanism of the rail rotary system in a perspective view; in FIG. 4 - module of a solar power plant in a perspective view; in FIG. 5 is a geometric diagram of a number of concentrating modules.

The solar power installation comprises a solar battery consisting of concentrating modules 1 with Fresnel lenses 2 and receiving radiation photoelectric converters 3, a system for orienting the solar battery to the sun, including an electric drive control system (not shown in the figures), a mechanical system supporting the perpendicular position of the solar battery to direction to the sun, including the base frame 4, mounted for rotation around a vertical axis using the support wheels 5, at least at least one of which is equipped with an electric drive 6, the solar power plant further comprises a horizontal support platform 7 with an annular rail 8 mounted on it, an annular rail 8 is equipped with a gear track 9, the base frame 4 is mounted using the support wheels 5 on the annular rail 8, the support wheels 5 are additionally equipped with gears 10, providing interaction with the gear track 9 of the ring rail 8, the electric drive 6 of the support wheels 5 is made in the form of a stepper motor with a gearbox, to reduce In order to achieve a single rotation step of the base frame 4, the base frame 4 further comprises horizontally oriented transverse support rails 11 rigidly connected to it, vertical posts 12 are installed at both ends of each transverse support rail 11, a bearing assembly 13 is made at the top of each vertical post 12, and at least one of the vertical posts 12 of each transverse carrier rail 11 is equipped with an electric drive 14, made in the form of a stepper motor with a gearbox, to reduce a single step of the angular transition In addition to the solar battery, the solar battery consists of concentrating modules 1, combined in horizontally oriented rows 15, made with the possibility of angular movement relative to its horizontal axes 16, placed above each transverse carrier rail 11 of the base frame 4, each row 15 is formed interconnected, with using the butt pads 17 and the threaded connection 18, the concentrating modules 1, the extreme in each row concentrating modules additionally contain carrier tubes 19 made with the possibility of fi casing in the bearing unit 13 of the uprights 12, the carrier tubes 19 are equipped with gears 20, for interaction with the electric drives 14 on the uprights 12, each row 15 of the concentrating modules 1 contains a cooling tube 21 with a circulating coolant, located on a straight line 22 passing through the foci 23 Fresnel lenses 2 of each concentrating module 1, the photoelectric transducer 3 of each concentrating module 1, located in the focus 23 of the Fresnel lens 2, is mounted on a cooling tube 21 with circulating heat Carrier, cooling tubes 21 of each row 15 of the concentrating modules 1 are interconnected by flexible polymer tubes 24.

Solar power installation works as follows. Sunlight falls on the Fresnel lens 2 of the concentrating modules 1, where its optical concentration occurs. In the focus of the Fresnel lens 2, the photoelectric converter 3 converts part of the incident light into electricity, the rest of the energy is spent on heating the photoelectric converter 3, and is also reflected. The coolant circulating through the cooling tubes 21 of the concentrating modules 1 and the flexible polymer tubes 24 connecting the concentrating modules 1 to each other removes heat for subsequent utilization from the photoelectric converters 3, providing an improvement in their output characteristics due to the absence of overheating. For constant sunlight falling into focus 23 of the concentrating modules 1 in the electric drive control system (not shown in the figures), the position of the sun is calculated depending on the time, date and geographic location, after which the electric drive control system (not shown in the figures) orientates the concentrating modules 1 depending on the position of the sun: on the azimuthal angle - due to the rotation of the base frame 4 using the electric drive 6 and the support wheels 5 with gears 10, - and on the zenith angle - beyond a tilt series of concentrating units 15 1 by the actuators 14 interacting with the gear wheels 20 supporting the tubes 19.

Claims (1)

A solar power plant, including a solar battery, consisting of concentrating modules with Fresnel lenses and receiving photoelectric converters, a solar system for orienting the solar battery to the sun, including an electric drive control system, a mechanical system that maintains the perpendicular position of the solar battery toward the sun, including the base frame, mounted for rotation around a vertical axis using support wheels, at least one of which is sn It is required by an electric drive, characterized in that the solar power installation further comprises a horizontal support platform with an annular rail mounted on it, the annular rail is equipped with a gear track, the base frame is mounted on the annular rail with the support wheels, and the support wheels are additionally equipped with gear wheels that provide interaction with the gear ring rail track, the electric drive of the support wheels is made in the form of a stepper motor with a gearbox, to reduce a single step turning the base frame, the base frame further comprises horizontally oriented transverse load-bearing rails rigidly connected to it, vertical racks are installed at both ends of each transverse load-bearing rail, a bearing assembly is made at the top of each vertical strut, and at least one of the vertical racks of each transverse load-bearing the rails are equipped with an electric drive, made in the form of a stepper motor with a gearbox, to reduce a single step of the angular movement of the solar battery, the solar the battery consists of concentrating modules, united in horizontally oriented rows, made with the possibility of angular movement relative to its horizontal axes, placed above each transverse carrier rail of the base frame, each row is formed by concentrating modules interconnected by means of butt pads and threaded joints, the outermost in each a number of concentrating modules additionally contain bearing tubes made with the possibility of fixing in the bearing nodes of the vertical racks, the support tubes are equipped with gears, for interaction with electric drives on vertical struts, each row of concentrating modules contains a cooling tube with a circulating coolant located on a straight line passing through the foci of the Fresnel lenses of each concentrating module, the photoelectric converter of each concentrating module located in the focus of the Fresnel lens mounted on a cooling tube with a circulating coolant, the cooling tubes of each row of concentrating modules are connected interconnected by flexible polymer tubes.

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