CN205121355U - Sunlight tracker - Google Patents

Abstract

The utility model provides a sunlight tracker, which comprises a controller, the biax rotates the platform, motor control module, the daylighting platform, a daylighting section of thick bamboo and sensitization device, on the lateral wall of daylighting platform, the center pin that uses the daylighting platform is provided with at least two sets of sensitization device as the symmetry axis symmetry, on the up end of sensitization section of thick bamboo bobbin base, the center pin that uses a daylighting section of thick bamboo is provided with at least two sets of sensitization device as symmetry axis also symmetry, motor control module and sensitization device all link to each other with the controller, motor control module is still continuous with the motor of biax rotation bench respectively, the biax rotates a motor that passes through motor control module control biax rotation bench in order to realize a biax rotation along level and vertical direction. In order to solve all ten minutes complicacies such as current sunlight tracker principle, structure, use the ten minutes inconvenient, need the professional person operate, and removal or the dismouting inconveniently of installation in a single day, remove at every turn and to set for data, adjustment parameters scheduling problem again. The utility model belongs to light tracking control field.

Description

A kind of sunlight tracking system

Technical field

The utility model relates to a kind of optical tracking system, belongs to light tracing control field.

Background technology

When energy and environment problem becomes two significant challenge that the world today faces, making full use of inexhaustible sun power becomes mankind's inevitable choice.Solar use, mainly contain sun power and directly utilize (as solar water heater), sun power changed into electric energy (photo-thermal power generation, photovoltaic generation) etc., sun power be made effectively to utilize, and sunlight tracking system must.

At present solar tracking system general in the world all needs the angle at the not sun place in the same time calculating every day in 1 year according to information such as the longitudes and latitudes laid a little, the position of sun in moment each in 1 year is stored in PLC, single-chip microcomputer or computer software, all will by calculating the position of sun in this each moment of fixed location to realize following the tracks of.What adopt is that computer data is theoretical, desirably ball warp latitude data and setting, once install, the just mobile or mounting or dismounting of inconvenience, have moved at every turn and just must recalculate parameter, setting data and adjustment parameters; Principle, circuit, technology, equipment are all very complicated, and layman can not at will operate.

Summary of the invention

The purpose of this utility model is: provide a kind of sunlight tracking system, all very complicated to solve existing sunlight tracking system principle, structure etc., it is very inconvenient to use, professional person is needed to operate, and once install inconvenient mobile or dismounting, each movement need reset the problem such as data, adjustment parameter.

The utility model is intended adopting so a kind of sunlight tracking system, comprise controller, double-axle rotation platform, motor control module, daylighting platform, lighting cylinder and sensor devices, on the sidewall of daylighting platform, with the central shaft of daylighting platform for axis of symmetry is symmetrically arranged with at least two group sensor devices, on upper surface at the bottom of lighting cylinder cylinder, with the central shaft of lighting cylinder for axis of symmetry is also symmetrically arranged with at least two group sensor devices, described daylighting platform and lighting cylinder are all arranged on the table top of double-axle rotation platform, described motor control module and sensor devices are all connected with controller, described motor control module is also connected with the motor on double-axle rotation platform respectively, double-axle rotation platform controls motor on double-axle rotation platform to realize the rotation of double-axle rotation platform along level and vertical direction by motor control module.According to the photosignal that the sensor devices on daylighting platform and lighting cylinder obtains, quadrant pairing comparision is adopted to judge daylighting platform and the angle case between lighting cylinder and sunshine fast, and control double-axle rotation platform to adjust angle by controller, daylighting platform and on sensor devices be used for the quick coarse adjustment of wide scope, lighting cylinder and on sensor devices be used for accurate adjustment, until daylighting platform and lighting cylinder aim at sunshine completely, reach equilibrium state.

As preferred structure, the central shaft of daylighting platform and lighting cylinder is all perpendicular with the table top of double-axle rotation platform;

As aforesaid further preferred structure, lighting cylinder is fixed on the centre position of daylighting platform upper end;

For ensureing system long-term stable operation, also include power module, power module is connected with motor control module; Also include the time module be connected with controller, time module provides the time for system, for night system stopping and operation benchmark is provided.

Overstep the extreme limit when rotating for preventing double-axle rotation platform position and damaging, also include the clamper control module be connected with controller, for carrying out spacing to double-axle rotation platform, when the motor be preferably in double-axle rotation platform reaches the limit of position, by the electric machine rotation in clamper control module restriction double-axle rotation platform;

Preferred structure also includes for the communication module with peripheral device communication, and communication module is connected with controller wire.

The utility model compared with prior art, major advantage is that this system can follow the tracks of sunshine automatically rapidly and accurately according to sun light irradiation angle, system principle and apparatus structure are all very simple, Automated condtrol, without the need to professional person's operation, very convenient to use, be convenient to transfer and dismounting, without the need to resetting data and parameter after transfer, saving a large amount of manpower and materials and financial resources, making it be easier to popular popularization.

Accompanying drawing explanation

Fig. 1 is systematic schematic diagram of the present utility model;

Fig. 2 is the structural representation of daylighting platform and lighting cylinder;

Fig. 3 is the plan structure schematic diagram of daylighting platform and lighting cylinder in Fig. 2.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearly, below with reference to accompanying drawings the utility model is described in further detail,

Embodiment:

With reference to Fig. 1, Fig. 2 and Fig. 3, the present embodiment provides a kind of sunlight tracking system, comprise controller 1, double-axle rotation platform 2, motor control module 3, daylighting platform 4, lighting cylinder 5, sensor devices 6, power module 7, time module 8, clamper control module 9 and communication module 10, power module 7 is connected with motor control module 3, on the sidewall of daylighting platform 4, with the central shaft of daylighting platform 4 for axis of symmetry is symmetrically arranged with two groups of sensor devices 6, on upper surface at the bottom of lighting cylinder 5, with the central shaft of lighting cylinder 5 for axis of symmetry is also symmetrically arranged with two groups of sensor devices 6, described daylighting platform 4 is arranged on the table top of double-axle rotation platform 2, lighting cylinder 5 is fixed on the centre position of daylighting platform 4 upper end, and the central shaft of daylighting platform 4 and lighting cylinder 5 is all perpendicular with the table top of double-axle rotation platform 2,

Described motor control module 3, sensor devices 6, time module 8, clamper control module 9 are all connected with controller 1 with communication module 10, described motor control module 3 is also connected with the motor on double-axle rotation platform 2 respectively, double-axle rotation platform 2 controls motor on double-axle rotation platform 2 to realize the rotation of double-axle rotation platform 2 along level and vertical direction by motor control module 3, time module 8 provides the time for system, for night system stopping and operation benchmark is provided; Clamper control module 9, for carrying out spacing to double-axle rotation platform 2, when the motor in double-axle rotation platform 2 reaches the limit of position, limits the electric machine rotation in double-axle rotation platform 2 by clamper control module 9; Communication module 10 for peripheral device communication.

According to the photosignal that the sensor devices 6 on daylighting platform 4 and lighting cylinder 5 obtains, five quadrant pairing comparision are adopted to judge daylighting platform 4 and the angle case between lighting cylinder 5 and sunshine fast, and control double-axle rotation platform 2 to adjust angle by controller 1, daylighting platform 4 and on sensor devices 6 for the quick coarse adjustment of wide scope, lighting cylinder 5 and on sensor devices 6 for accurate adjustment, until daylighting platform 4 and lighting cylinder 5 aim at sunshine completely, automatically reach equilibrium state.

Claims (7)

1. a sunlight tracking system, it is characterized in that: comprise controller (1), double-axle rotation platform (2), motor control module (3), daylighting platform (4), lighting cylinder (5) and sensor devices (6), on the sidewall of daylighting platform (4), be that axis of symmetry is symmetrically arranged with at least two group sensor devices (6) with the central shaft of daylighting platform (4), on upper surface at the bottom of lighting cylinder (5) cylinder, be that axis of symmetry is also symmetrically arranged with at least two group sensor devices (6) with the central shaft of lighting cylinder (5), described daylighting platform (4) and lighting cylinder (5) are all arranged on the table top of double-axle rotation platform (2), described motor control module (3) and sensor devices (6) are all connected with controller (1), described motor control module (3) is also connected with the motor on double-axle rotation platform (2) respectively, double-axle rotation platform (2) controls motor on double-axle rotation platform (2) to realize the rotation of double-axle rotation platform (2) along level and vertical direction by motor control module (3).

2. a kind of sunlight tracking system according to claim 1, is characterized in that: the central shaft of daylighting platform (4) and lighting cylinder (5) is all perpendicular with the table top of double-axle rotation platform (2).

3. a kind of sunlight tracking system according to claim 2, is characterized in that: described lighting cylinder (5) is fixed on the centre position of daylighting platform (4) upper end.

4. a kind of sunlight tracking system according to claim 1, it is characterized in that: also include power module (7), power module (7) is connected with motor control module (3).

5. a kind of sunlight tracking system according to claim 1, is characterized in that: also include the time module (8) be connected with controller (1), and time module (8) provides the time for system.

6. a kind of sunlight tracking system according to claim 1, is characterized in that: also include the clamper control module (9) be connected with controller (1), for carrying out spacing to double-axle rotation platform (2).

7. a kind of sunlight tracking system according to claim 1, is characterized in that: also include for the communication module (10) with peripheral device communication, communication module (10) is connected with controller (1) wire.