CN204667201U - A kind of automatic solar energy tracking device - Google Patents

Abstract

The utility model proposes a kind of automatic solar energy tracking device, comprise frame, be arranged on camera bellows in frame and affixed with frame, evenly be arranged on four the first photoresistance control modules in camera bellows, be arranged on the resetting means at night outside camera bellows, power supply, the second drive motor being arranged on the first drive motor in frame and being arranged at the bottom of frame, camera bellows has opening, night, resetting means comprised driving lever, pair of conductive shell fragment and the second photoresistance control module, one end of driving lever is arranged on the driving shaft of the second drive motor, when second photoresistance control module closes and pair of conductive shell fragment and described second drive motor form a closed-loop path, camera bellows is driven to rotate from west eastwards to make the second drive motor, when the driving shaft of the second drive motor rotates to be resisted against on pair of conductive shell fragment to the other end of driving lever, pair of conductive shell fragment is pushed aside, the opening of camera bellows rotates to east.Automatic solar energy tracking device of the present utility model, increases the effective irradiated area of sun power.

Description

A kind of automatic solar energy tracking device

Technical field

The utility model relates to solar energy equipment field, refers to a kind of automatic solar energy tracking device especially.

Background technology

Solar panels also claim photovoltaic panel, the luminous energy absorbed can be converted to heat energy or electric energy for industry with live.Existing solar panels are mostly fixed roof or outdoor square and are convenient to gather sunlight, but the position of the sun was constantly change in one day, and effective irradiated area that fixing solar panels receive sun power is limited, and transformation efficiency is low, spread of voltage.

Summary of the invention

The utility model proposes a kind of automatic solar energy tracking device, the effective irradiated area solving solar panels or solar attachment reception sunshine in prior art is limited, the problem that transformation efficiency is low.

The technical solution of the utility model is achieved in that

A kind of automatic solar energy tracking device, comprise: frame, the camera bellows be arranged in described frame, be evenly arranged on four the first photoresistance control modules in described camera bellows, the resetting means at night be arranged on outside described camera bellows, power supply, the second drive motor of being arranged on the first drive motor in frame and being arranged at the bottom of frame, described camera bellows has opening, and the light sensing end of described four the first photoresistance control modules is all arranged on the below of the opening part of described camera bellows, it is affixed in the horizontal direction that described first drive motor and described camera bellows pass through a rotating shaft, rotates in vertical plane for driving described camera bellows along North and South direction, described second drive motor and described frame vertically affixed, rotate along east-west direction in surface level for driving described frame and camera bellows, described four the first photoresistance control modules are all electrically connected with described first drive motor, the second drive motor, described power supply be used for described four the first photoresistance control modules, night resetting means, the first drive motor and the second drive motor power, described night, resetting means comprised driving lever, pair of conductive shell fragment and a second photoresistance control module, one end of described driving lever is fixed on the driving shaft of described second drive motor, a described second photoresistance control module closes at night, and when closed and described pair of conductive shell fragment and described second drive motor form a closed-loop path, described camera bellows is driven to rotate from west in surface level eastwards to make described second drive motor, be resisted against on described pair of conductive shell fragment when the driving shaft of described second drive motor rotates to the other end of described driving lever, described pair of conductive shell fragment is pushed aside by described driving lever, disconnect described closed-loop path, now the opening of described camera bellows rotates extremely towards east.

Preferably, in described automatic solar energy tracking device, described camera bellows is inclined in described frame.

Preferably, in described automatic solar energy tracking device, photoresistance induction end in each first photoresistance control module in described four the first photoresistance control modules is positioned at immediately below the midpoint at each edge of described opening, wherein, the distance between the photoresistance induction end in two relative the first photoresistance control modules is greater than the relative distance of opening part corresponding thereto.

Preferably, in described automatic solar energy tracking device, also comprise chassis, described second drive motor and described night resetting means be arranged on described chassis.

Preferably, in described automatic solar energy tracking device, described first drive motor and the second drive motor are all set to the direct current generator being with speed reduction unit.

Preferably, in described automatic solar energy tracking device, described power supply comprises the first direct supply, the second direct supply and the 3rd direct supply, described first direct supply is all connected with described first drive motor, the second drive motor, and be connected with described four the first photoresistance control modules, drive described first drive motor or the second drive motor to rotate forward; Described second direct supply is all connected with described first drive motor, the second drive motor, and is connected with described four the first photoresistance control modules, drives described first drive motor or the reversion of the second drive motor; Described 3rd direct supply is all connected with described four the first resistance photoresistance control modules, the second photoresistance control modules.

Preferably, in described automatic solar energy tracking device, described first photoresistance control module comprises photoresistance and relay, described photoresistance is arranged on immediately below the edge of described opening, described relay is arranged on outside described camera bellows, and be connected with described photoresistance, and the switch terminals of described relay is all connected with described first drive motor, the second drive motor, the control end of described relay is all connected with described first direct supply, the second direct supply.

The beneficial effects of the utility model are: automatic solar energy tracking device of the present utility model, can rotate with the change of position of sun, achieve the tracking to the sun, increase effective irradiated area of sunshine, improve transformation efficiency.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of a kind of automatic solar energy tracking device of the utility model;

Fig. 2 is the structural representation of camera bellows shown in Fig. 1.

In figure:

1, frame; 2, camera bellows; 3, the first photoresistance control module; 4, night resetting means; 5, chassis; 6, the first drive motor; 7, the second drive motor; 41, driving lever; 42, pair of conductive shell fragment; 43, the second photoresistance control module; 31, photoresistance; 32, relay.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

A kind of automatic solar energy tracking device as shown in Figure 1 to Figure 2, comprise: frame 1, the camera bellows 2 be inclined in frame 1, four the first photoresistance control modules 3 be arranged in camera bellows 2, the resetting means 4 at night be arranged on outside camera bellows, be arranged on the first drive motor 6 in frame 1 and be arranged on the second drive motor 7 at the bottom of frame, power supply and chassis 5, camera bellows 2 has opening, and the light sensing end of four the first photoresistance control modules 3 is arranged on the below of the opening part of camera bellows 2, first drive motor 6 by a rotating shaft and camera bellows 2 affixed in the horizontal direction, rotate along North and South direction in vertical plane for driving camera bellows 2, second drive motor 7 is vertically affixed with frame 1, rotates in surface level for drive chassis 1 and camera bellows 2 along east-west direction, four the first photoresistance control modules 3 are all electrically connected with the first drive motor 6, second drive motor 7, power supply be used for four the first photoresistance control modules 3, night resetting means 4, first drive motor 6 and the second drive motor 7 power, night, resetting means 4 was connected with the second drive motor 7, made camera bellows 2 recover towards the position in east at night for ordering about frame 1, night, resetting means 4 comprised driving lever 41, pair of conductive shell fragment 42 and a second photoresistance control module 43, one end of driving lever 41 is arranged on the driving shaft of the second drive motor 7, a second photoresistance control module 43 closes at night, and when closed and pair of conductive shell fragment 42 and the second drive motor 7 form a closed-loop path, camera bellows 2 is driven to turn to opening westwards eastwards from opening in surface level to make the second drive motor 7, be resisted against on pair of conductive shell fragment 42 when the driving shaft of the second drive motor 7 rotates to the other end of driving lever 41, pair of conductive shell fragment 42 is pushed aside by driving lever 41, disconnect closed-loop path, now the opening of camera bellows rotates extremely towards east, chassis 5 is arranged the second drive motor 7 and night resetting means 4.

Photoresistance induction end in each first photoresistance control module in four the first photoresistance control modules 3 is positioned at immediately below the midpoint at each edge of opening, wherein, the distance between the photoresistance induction end in two relative the first photoresistance control modules is greater than the relative distance of opening part corresponding thereto.First drive motor 6 and the second drive motor 7 are all set to the direct current generator being with speed reduction unit, are convenient to the rotating speed of reduction by first drive motor and the second drive motor.

Power supply comprises the first direct supply, the second direct supply and the 3rd direct supply, first direct supply is all connected with the first drive motor, the second drive motor, and be electrically connected with four the first photoresistance control modules, drive the first drive motor or the second drive motor to rotate forward; Second direct supply is all connected with the first drive motor, the second drive motor, and is connected with four the first photoresistance control modules, drives the first drive motor or the reversion of the second drive motor; 3rd direct supply is all electrically connected with four the first resistance photoresistance control modules, the second photoresistance control modules.First drive motor rotates forward as to rotate from south to north, is reversed to and is rotated by north orientation south; Second drive motor rotates forward as to rotate from east to west, is reversed to and rotates from west to east.

First photoresistance control module 3 comprises photoresistance 31 and relay 32, photoresistance 31 is arranged on immediately below the edge of opening, relay 32 is arranged on outside described camera bellows, and be connected with photoresistance, and the switch terminals of relay is all connected with the first drive motor, the second drive motor, the control end of relay is all connected with the first direct supply, the second direct supply.

Time by day, four the first photoresistance control modules in camera bellows are by the irradiation of induction sunshine, control the sense of rotation of the first drive motor and the second drive motor, the first drive motor and the second drive motor is made to drive camera bellows mobile with the movement of sunshine, with this realize to sun power from motion tracking, after terminating daytime, camera bellows opening rotates to towards west, wherein, the second photoresistance control module makes night resetting means be in off-state always; Time at night, the second photoresistance control module in night resetting means makes closed circuit be communicated with, and frame rotates and makes camera bellows opening from returning to camera bellows opening towards west towards east, is convenient to receive sun power at morning, improves the efficiency receiving sun power.

Camera bellows 2 is inclined in frame 1, and four the first photoresistance control modules 3 be convenient in camera bellows 2 respond to the irradiation of sunshine.

Automatic solar energy tracking device of the present utility model is applied in solar charging panel or other sun power receives on equipment, increases the effective irradiated area of sunshine, improves the efficiency of solar charging panel or other sun power reception equipment.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (7)

1. an automatic solar energy tracking device, it is characterized in that, comprise: frame, the camera bellows be arranged in described frame, be evenly arranged on four the first photoresistance control modules in described camera bellows, the resetting means at night be arranged on outside described camera bellows, power supply, the second drive motor of being arranged on the first drive motor in frame and being arranged at the bottom of frame, described camera bellows has opening, and the light sensing end of described four the first photoresistance control modules is all arranged on the below of the opening part of described camera bellows, it is affixed in the horizontal direction that described first drive motor and described camera bellows pass through a rotating shaft, rotates in vertical plane for driving described camera bellows along North and South direction, described second drive motor and described frame vertically affixed, rotate along east-west direction in surface level for driving described frame and camera bellows, described four the first photoresistance control modules are all electrically connected with described first drive motor, the second drive motor, described power supply be used for described four the first photoresistance control modules, night resetting means, the first drive motor and the second drive motor power, described night, resetting means comprised driving lever, pair of conductive shell fragment and a second photoresistance control module, one end of described driving lever is fixed on the driving shaft of described second drive motor, a described second photoresistance control module closes at night, and when closed and described pair of conductive shell fragment and described second drive motor form a closed-loop path, described camera bellows is driven to rotate from west in surface level eastwards to make described second drive motor, be resisted against on described pair of conductive shell fragment when the driving shaft of described second drive motor rotates to the other end of described driving lever, described pair of conductive shell fragment is pushed aside by described driving lever, disconnect described closed-loop path, now the opening of described camera bellows rotates extremely towards east.

2. automatic solar energy tracking device according to claim 1, is characterized in that, described camera bellows is inclined in described frame.

3. automatic solar energy tracking device according to claim 1, it is characterized in that, photoresistance induction end in each first photoresistance control module in described four the first photoresistance control modules is positioned at immediately below the midpoint at each edge of described opening, wherein, the distance between the photoresistance induction end in two relative the first photoresistance control modules is greater than the relative distance of opening part corresponding thereto.

4. automatic solar energy tracking device according to claim 1, is characterized in that, also comprises chassis, described second drive motor and described night resetting means be arranged on described chassis.

5. automatic solar energy tracking device according to claim 1, is characterized in that, described first drive motor and the second drive motor are all set to the direct current generator being with speed reduction unit.

6. automatic solar energy tracking device according to claim 5, it is characterized in that, described power supply comprises the first direct supply, the second direct supply and the 3rd direct supply, described first direct supply is all connected with described first drive motor, the second drive motor, and be connected with described four the first photoresistance control modules, drive described first drive motor or the second drive motor to rotate forward; Described second direct supply is all connected with described first drive motor, the second drive motor, and is connected with described four the first photoresistance control modules, drives described first drive motor or the reversion of the second drive motor; Described 3rd direct supply is all connected with described four the first resistance photoresistance control modules, the second photoresistance control modules.

7. automatic solar energy tracking device according to claim 6, it is characterized in that, described first photoresistance control module comprises photoresistance and relay, described photoresistance is arranged on immediately below the edge of described opening, described relay is arranged on outside described camera bellows, and be connected with described photoresistance, and the switch terminals of described relay is all connected with described first drive motor, the second drive motor, the control end of described relay is all connected with described first direct supply, the second direct supply.