CN108844047B - Working circuit for solar light guide energy-saving lighting system - Google Patents

Abstract

The invention proposes a working circuit for a solar light guide energy-saving lighting system, comprising: the working signal end of the controller screw rod is connected with the working end of the motion motor, the rotating working signal end of the controller is connected with the working end of the rotating shaft working motor, the working signal end of the controller driving gear is connected with the working end of the driving gear working motor, and the light signal receiving end of the controller is connected with the signal transmitting end of the light sensor.

Description

Working circuit for solar light guide energy-saving lighting system

Technical Field

The invention relates to the field of electronic circuit control, in particular to a working circuit for a solar light guide energy-saving lighting system.

Background

In the building construction process, because the lighting effects of rooms in different directions are different, the lighting requirements can be met by turning on the lamp for a long time for the rooms with poor lighting effects, so that energy consumption and waste are caused, if sunlight is collected, the power supply load is necessarily reduced, the energy is saved, the environment is protected, the solar light guide equipment in the prior art cannot realize automatic work, and the corresponding technical problems are needed to be solved by the skilled person.

Disclosure of Invention

The invention aims at least solving the technical problems existing in the prior art, and particularly creatively provides a working circuit for a solar light guide energy-saving lighting system.

To achieve the above object of the present invention, the present invention provides an operating circuit for a solar light guide energy saving lighting system, comprising: the working signal end of the controller screw rod is connected with the working end of the motion motor, the rotating working signal end of the controller is connected with the working end of the rotating shaft working motor, the working signal end of the controller driving gear is connected with the working end of the driving gear working motor, and the light signal receiving end of the controller is connected with the signal transmitting end of the light sensor.

The working circuit for the solar light guide energy-saving lighting system preferably further comprises: the sunlight collecting plate B-1 collects sunlight, the sunlight collecting work is carried out through the sunlight collecting structure, and when the sunlight deviates, the angle of the sunlight collecting plate B-1 is adjusted through the cooperation of the adjusting mechanism and the rotating mechanism.

The working circuit for the solar light guide energy-saving lighting system is characterized in that the light sensor is preferably a light tracking sensor.

The working circuit for the solar light guide energy-saving lighting system is preferably that the controller is an ATM89C51.

The working circuit for the solar light guide energy-saving lighting system, preferably, the rotating mechanism comprises: the first frame A-11 is connected with the moving end of the screw rod A-8 through the first moving base A-12, the fixed end of the screw rod A-8 is arranged on the moving head of the moving motor A-7, the bottom end of the moving motor A-7 is fixed on the second moving base A-6, and the side wall of the second moving base A-6 is connected with the fixed seat of the first platform A-5.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

the circuit can realize the control of the controller to the motor, and complete the angle movement of the solar light guide energy-saving system, thereby ensuring the normal incidence of light rays.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic circuit diagram of the present invention;

FIG. 2 is a general schematic of the present invention;

FIG. 3 is a schematic view of a rotary mechanism of the present invention;

FIG. 4 is a schematic view of a lighting structure of the present invention;

fig. 5 is a schematic view of an adjustment mechanism of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

As shown in fig. 1 to 5, the present invention discloses an operating circuit for a solar light guide energy saving lighting system, comprising: the working signal end of the controller screw rod is connected with the working end of the motion motor, the rotating working signal end of the controller is connected with the working end of the rotating shaft working motor, the working signal end of the controller driving gear is connected with the working end of the driving gear working motor, and the light signal receiving end of the controller is connected with the signal transmitting end of the light sensor.

Wherein portion A is rotary mechanism, includes: the first frame A-11 is connected with the moving end of the screw rod A-8 through the first moving base A-12, the fixed end of the screw rod A-8 is arranged on the moving head of the moving motor A-7, the bottom end of the moving motor A-7 is fixed on the second moving base A-6, and the side wall of the second moving base A-6 is connected with the fixed seat of the first platform A-5;

the first moving base A-12 is connected with a moving sleeve A-1 at the moving end of the screw rod A-8 through a first bearing A-10, the extending end of the moving sleeve A-1 is fixed at the center end of the first bearing A-10, the first moving base A-12 is arranged on the inner side of a first frame A-11, so that adjustment failure or inaccurate adjustment caused by scraping of external equipment is prevented, the fixed end of the screw rod A-8 is fixedly connected with a moving head of the moving motor A-7 through screw rod penetrating nails, if the screw rod A-8 needs to be replaced by pulling out screw rod penetrating nails, the screw rod A-8 is also replaced at any time, the second moving base A-6 is connected with the bottom end of the moving motor A-7 through motor fastening screws, the extending end of the side wall of the second moving base A-6 is connected with a fixed base side plate A-3 through a second bearing A-2, a fixed base bottom plate A-4 is fixed with a first platform A-5, a fixed base bottom plate A-4 is kept at a certain distance from the bottom of the second moving base A-6, the fixed base A-4 is prevented from being scraped when the second moving base A-6 reciprocates, the first frame A-11 and the first frame A-5 are connected with the first platform A-5 through a first connecting post, and the other end of the first moving base A-6 is connected with the first platform A-5 at the inner side through a fixed post. The structure is matched with the screw rod through the first bearing and the second bearing, so that the energy-saving lighting system can keep circular arc movement, the light-following operation can be more accurately carried out, and the energy-saving lighting system can accurately collect solar rays to the greatest extent.

The movable end of the screw rod A-8 is etched with an external thread A-9, and the external thread A-9 is matched with an internal thread in the middle of the movable sleeve A-1.

The fixed seat bottom plate A-4 and the fixed seat side plate A-3 are L-shaped.

The first frame is a hollowed alloy section bar, and the first frame is of a square connecting structure.

The sunlight collecting plate B-1 gathers sunlight, the collecting lens B-16 is arranged at the position of the gathering focus of the sunlight, the collecting lens is inlaid in the middle of the adjusting plate B-15, the left side and the right side of the adjusting plate B-15 are provided with the through holes B-4, the adjusting plate B-15 is fixed on the adjusting seat B-13 through the through holes B-4, the adjusting seat is fixed on the second connecting column B-3 through the adjusting screw B-14, the adjusting groove is etched at the inner side of the second connecting column B-3, the adjusting screw B-14 is fixed at any position along the adjusting groove, the position of the adjusting plate can be adjusted according to the focus of the solar energy through the structure, thereby ensuring the focusing accuracy of the collecting lens, the reflecting plate B-12 is arranged at the lower part of the collecting lens B-16, the fixing ring B-11 is arranged outside the reflecting plate B-12, the fixing ring B-11 is a double-layer structure to clamp the reflecting plate B-12, a rotating shaft B-6 is arranged on the outer circumference of the fixing ring B-11, the angle of the reflecting plate B-12 is regulated by the rotating shaft B-6, the rotating shaft B-6 is arranged on the rotating fixing frame B-7, the lower edge B-8 of the rotating fixing frame is fixed on the inner side of the first connecting column, the lower edges B-8 of the rotating fixing frame B-7 and the rotating fixing frame B-8 are Z-shaped, so that the existing space can be better utilized, the rotating shaft B-6 can regulate the reflecting plate B-12 more conveniently, the lower part of the reflecting plate B-12 is provided with a light guide cylinder B-10, sunlight refracted by the reflecting plate enters the light guide cylinder B-10 through a light guide opening B-9, and the inside of the light guide cylinder B-10 is coated with reflecting materials, the sunlight is transmitted. After the sunlight collected by the light guide plate is transmitted through the collecting lens, the sunlight cannot directly enter the light guide cylinder, and after the reflecting plate is arranged, the sunlight is effectively and accurately guided into the light guide cylinder.

The via hole B-4 and the adjusting through hole B-5 are elliptical, and the via hole B-4 and the adjusting through hole B-5 are arranged in a crisscross manner, so that the condensing lens B-16 on the adjusting plate B-15 can be adjusted and aligned, and the focus of sunlight convergence is always at the center of the condensing lens B-16.

The daylighting panel is made of toughened glass, and a solar daylighting film is coated on one side of the daylighting panel to collect sunlight in a converging way.

The daylighting panel B-1 is connected with one end of the second connecting column B-3 through a V-shaped frame B-2, one end of the V-shaped frame B-2 is U-shaped, the daylighting panel B-1 is inserted into the V-shaped frame, the other end of the V-shaped frame B-2 is fixed at one end of the second connecting column B-3, and the other end of the second connecting column B-3 is connected with the first frame through a base.

The condensing lens is a convex lens.

Because the inside reflective material of light guide tube can conduct the sunlight, so light guide tube can form the right angle and bend, carries out pipeline laying according to the needs in different rooms, and the user of facilitating the use is to the demand of light.

The light guide plate is fixed at one end of the second connecting column B-3, the other end of the second connecting column B-3 is fixed at the upper end of the first frame, one end of the first connecting column C-2 is hinged with the inner side of the first frame, the other end of the first connecting column C-2 is fixed at the top of the movable plate C-8, the driven gear C-7 is arranged at the center position of the bottom of the movable plate C-8, the driven gear C-7 forms a space with the fixed bottom plate C-4 through the isolating ring C-6, the isolating ring C-6 is not fixedly connected with the fixed bottom plate C-4, the bottom of the driving gear C-3 is driven to rotate through the driving gear working motor C-5, the driving gear C-3 is matched with the driven gear C-7 and drives the driven gear to move through the driving gear rotation, so that the solar light guide energy saving system is adjusted to be operated to an optimal angle position, received sunlight reaches a vertical irradiation state as far as possible,

the other end of the second connecting column B-3 is fixed at the upper end of the first frame through the fixed abutment C-1, the fixed abutment is shaped like the Chinese character 'Tu', the top of the fixed abutment C-1 is in a groove shape, the second connecting column B-3 is located in the groove, the periphery of the side wall of the fixed abutment C-1 is provided with the fixed through holes C-9, and the fixed through holes C-9 are provided with fastening screws to be connected with the second connecting column B-3, so that the second connecting column is connected with the first frame more firmly, and meanwhile, the second connecting column is convenient to detach and store.

The controller is preferably an STM32F103 series singlechip, can accurately send signals, has low cost and has an 8-path analog-to-digital conversion function. The sunlight irradiation signal is obtained through the light tracking sensor and fed back to the controller, and the working angle of the motor is adjusted through the controller by using the existing programming mode.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (3)

1. An operating circuit for a solar light guide energy efficient lighting system, comprising: the working signal end of the controller screw rod is connected with the working end of the motion motor, the rotating working signal end of the controller is connected with the working end of the rotating shaft working motor, the working signal end of the controller driving gear is connected with the working end of the driving gear working motor, and the light signal receiving end of the controller is connected with the signal transmitting end of the light sensor;

further comprises: the sunlight collecting plate (B-1) collects sunlight, the sunlight collecting work is carried out through the sunlight collecting structure, and when the sunlight is deviated, the angle of the sunlight collecting plate (B-1) is adjusted through the cooperation of the adjusting mechanism and the rotating mechanism;

the rotation mechanism includes: the first frame (A-11) is connected with the moving end of the screw rod (A-8) through the first moving base (A-12), the fixed end of the screw rod (A-8) is arranged on the moving head of the moving motor (A-7), the bottom end of the moving motor (A-7) is fixed on the second moving base (A-6), and the side wall of the second moving base (A-6) is connected with the fixed seat of the first platform (A-5);

the sunlight collecting plate (B-1) collects sunlight, the collecting lens (B-16) is arranged at a sunlight collecting focal point, the collecting lens is embedded in the middle of the adjusting plate (B-15), through holes (B-4) are formed in the left side and the right side of the adjusting plate (B-15), the adjusting plate (B-15) is fixed on the adjusting seat (B-13) through the through holes (B-4), the adjusting seat is fixed on the second connecting column (B-3) through an adjusting screw (B-14), an adjusting groove is etched in the inner side of the second connecting column (B-3), and the adjusting screw (B-14) is fixed at any position along the adjusting groove;

the light collecting mirror (B-16) is characterized in that the reflector (B-12) is arranged at the lower part of the light collecting mirror (B-16), the fixing ring (B-11) is arranged outside the reflector (B-12), the reflector (B-12) is clamped by the fixing ring (B-11) in a double-layer structure, the rotating shaft (B-6) is arranged on the outer circumference of the fixing ring (B-11), the angle of the reflector (B-12) is regulated through the rotating shaft (B-6), the rotating shaft (B-6) is arranged on the rotating fixing frame (B-7), the lower edge (B-8) of the rotating fixing frame is fixed on the inner side of the first connecting column, and the rotating fixing frame (B-7) and the lower edge (B-8) of the rotating fixing frame are Z-shaped.

2. The operating circuit for a solar light guide energy efficient lighting system of claim 1, wherein said light sensor is a light tracking sensor.

3. The operating circuit for a solar light guide energy efficient lighting system of claim 1, wherein said controller is STM32F103.