A kind of power electronic technique energy saver
Technical field
The present invention relates to power electronics fields, are in particular a kind of power electronic technique energy savers.
Background technique
The recycling of the energy such as luminous energy, thermal energy and wind energy has become the inexorable trend used using energy saving device.
Patent No. CN201210077960.9 discloses energy-efficient high-power LED illuminating device, including LED light group, independently of institute
The water cell of LED light group setting is stated, the LED lamp holder includes LED luminescence unit and water stream channel, setting in water cell
There are the cold water area being mutually isolated and hydrothermal area, cold water area is connect by cold water pipeline with the inlet opening of each LED lamp holder, and hydrothermal area is logical
Overheat water lines are connect with the apopore of each LED lamp holder.The overall weight of the invention lamp cap greatly reduces, and lamp cap installation is more square
Just, single lamp cap can be realized more powerful illumination under conditions of realizing same illuminating effect under conditions of equivalent weight
Required lamp cap quantity is less;The complicated composition degree and cost of manufacture of device can substantially reduce;Lamp cap is produced when working
Raw heat is for heating water body, and the hot water after these heating can be directly for people to use, and capacity usage ratio can
Improve 85% or more.But the recycling use of this equipment energy is only used for water body heating, service efficiency is low and can not store back
Receive energy.
Summary of the invention
The object of the present invention is to provide a kind of power electronic technique energy saver, its advantages be can to LED light group and
The luminous energy and thermal energy of the large size lighting device such as high-pressure sodium lamp carry out recycling and are converted into electric energy and are stored, while can be according to recycling
The service condition of electric energy carries out angular adjustment to the solar panels for absorbing luminous energy, adjusts absorption intensity, and then adjust charge efficiency.
The purpose of the present invention is achieved through the following technical solutions:
The object of the present invention is to provide a kind of power electronic technique energy saver, including lampshade, shell, right operation are operated afterwards
Shell, driving adjustment structure, the second solar panels structure and battery group, the rear operation shell and right operation shell difference
It is fixedly connected on rear end and the right end of lampshade, driving adjustment structure is rotatably connected on lampshade, rear operation shell and right operation shell
Interior, the second solar panels structure setting has multiple, and multiple second solar panels structures are rotatably connected in lampshade, and multiple second
Solar panels structure is meshed with driving adjustment structure, and battery group is fixedly connected on the right end of right operation shell.
As further optimization of the invention, a kind of power electronic technique energy saver, the lampshade includes lampshade
Shell, support frame, the first rack gear sliding groove, the second rack gear sliding groove and third rack gear sliding groove, support frame are fixedly connected on lampshade
In shell, the first rack gear sliding groove, the second rack gear sliding groove and third rack gear sliding groove are successively from right to left through Lamp housing
Rear end and support frame.
As further optimization of the invention, a kind of power electronic technique energy saver, the rear operation shell packet
Rear operation box and rotation circular hole are included, rear operation box is fixedly connected on the rear end of Lamp housing, and rear operation box is arranged in rotation circular hole
Right end;
The right operation shell includes right operation box, rack gear sliding slot, first rotating shaft turn hole, the second shaft turn hole and conducting wire
Through-hole, right operation box are fixedly connected on the right end of Lamp housing, run through right operation box before and after rack gear sliding slot, first rotating shaft turn hole and the
Two shaft turn holes successively run through the right end and support frame of Lamp housing from front to back, and wire through-hole is arranged on right operation box, right
Operation box is connected to inside Lamp housing.
As further optimization of the invention, a kind of power electronic technique energy saver, the driving adjustment structure
Including driving small machine, lateral shaft, driving gear, the first lateral driven gear, the second lateral driven gear, third laterally from
Moving gear, second longitudinal direction driven gear, first longitudinal direction driven gear, second longitudinal direction shaft, first longitudinal direction shaft, the first sliding tooth
Article, the first displacement solar panels, the second drive rack, third drive rack and the 4th drive rack, driving small machine is fixed to be connected
The right end in rear operation box is connect, drives the transmission shaft of small machine to be rotatably connected in rotation circular hole, drives the transmission shaft of small machine
The right end of lateral shaft is connected by shaft coupling, the left end of lateral shaft is rotatably connected on the left end of rear operation box inner wall, drives
Gear, the first lateral driven gear, the second lateral driven gear and third transverse direction driven gear are fixedly connected sequentially from left to right
In lateral shaft, second longitudinal direction driven gear and first longitudinal direction driven gear are respectively fixedly connected in second longitudinal direction shaft and
In one longitudinal shaft, second longitudinal direction driven gear and first longitudinal direction driven gear are arranged in right operation box, and first longitudinal direction turns
Axis and second longitudinal direction shaft difference clearance fit are in first rotating shaft turn hole and the second shaft turn hole, the left and right of first longitudinal direction shaft
Both ends and the left and right ends of second longitudinal direction shaft are rotatably connected on the left end of Lamp housing inner wall and the right end of right operation box inner wall,
The lower end of first drive rack from front to back successively with first longitudinal direction driven gear, second longitudinal direction driven gear and driving gear phase
Engagement, the first drive rack are slidably connected in rack gear sliding slot, and there are six the first displacement solar panels settings, first longitudinal direction shaft
Rear end successively fix three first displacement solar panels from left to right, the rear end of second longitudinal direction shaft is successively fixed from left to right
Three first displacement solar panels, the second drive rack, third drive rack and the 4th drive rack are slidably connected at respectively
In one rack gear sliding groove, the second rack gear sliding groove and third rack gear sliding groove, the second drive rack, third drive rack and the 4th
Two the second solar panels structures of connection are engaged respectively in the lower end of drive rack.
As further optimization of the invention, a kind of power electronic technique energy saver, second solar panels
There are six structure settings, the second solar panels structure include main drive gear, it is main turn axis, from drive gear, from turning axis, driving
Bar, driving geosynclinal block, second displacement solar panels and fulcrum, the main gear that drives is rotatably connected on the main left end for turning axis, from drive gear
It is rotatably connected on from the left end for turning axis, master turns the right end of axis and is fixedly connected with from the right end for turning axis in Lamp housing right end
Inner wall on, the main right end for driving gear is meshed with from driving gear, and the front end of drive rod is fixedly connected on from drive gear rear end
Eccentric part, the rear end of drive rod are slidably connected in driving geosynclinal block, and the rear end of geosynclinal block is driven to be fixedly connected with second displacement solar energy
Plate, the upper end of second displacement solar panels are provided with pre-and post perforative circular hole, and fulcrum clearance fit is in second displacement solar panels
In the circular hole of upper end, the rear end of fulcrum is fixedly connected on support frame;
The upper end of two second solar panels structures on the right side is meshed with the second drive rack, and intermediate two
The upper end of a second solar panels structure is meshed with third drive rack, two second solar panels structures in left side it is upper
End is meshed with the 4th drive rack.
As further optimization of the invention, a kind of power electronic technique energy saver, the battery group is fixed
It is connected to the right end of right operation box, six first displacement solar panels and six second displacement solar panels pass through electric wire company
The charging end of battery group is connect, a discharge end of battery group connects driving small machine by electric wire.
Using technical solution provided by the invention, compared with prior art, has the advantages that and adjust knot for driving
Structure, the second solar panels structure and battery group can be to the luminous energy and thermal energy of the large-scale lighting device such as LED light group and high-pressure sodium lamp
It carries out recycling to be converted into electric energy and stored, while can be according to the service condition of recycling electric energy to the solar panels for absorbing luminous energy
Angular adjustment is carried out, adjusts absorption intensity, and then adjust charge efficiency.
Detailed description of the invention
Fig. 1 is whole structural schematic diagram one of the invention;
Fig. 2 is whole structural schematic diagram two of the invention;
Fig. 3 is the structural schematic diagram one of partial region of the invention;
Fig. 4 is the structural schematic diagram two of partial region of the invention;
Fig. 5 is the structural schematic diagram three of partial region of the invention;
Fig. 6 is the structural schematic diagram one of driving adjustment structure of the invention;
Fig. 7 is the structural schematic diagram two of driving adjustment structure of the invention;
Fig. 8 is the structural schematic diagram one of the second solar panels structure of the invention;
Fig. 9 is the structural schematic diagram two of the second solar panels structure of the invention.
In figure: lampshade 1;Lamp housing 1-1;Support frame 1-2;First rack gear sliding groove 1-3;Second rack gear sliding groove 1-4;The
Three rack gear sliding groove 1-5;Shell 2 is operated afterwards;Operation box 2-1 afterwards;Rotate circular hole 2-2;Right operation shell 3;Right operation box 3-1;
Rack gear sliding slot 3-2;First rotating shaft turn hole 3-3;Second shaft turn hole 3-4;Wire through-hole 3-5;Drive adjustment structure 4;It drives small
Motor 4-1;Lateral shaft 4-2;Drive gear 4-3;First lateral driven gear 4-4;Second lateral driven gear 4-5;Third
Lateral driven gear 4-6;Second longitudinal direction driven gear 4-7;First longitudinal direction driven gear 4-8;Second longitudinal direction shaft 4-9;First
Longitudinal shaft 4-10;First drive rack 4-11;First displacement solar panels 4-12;Second drive rack 4-13;Third driving
Rack gear 4-14;4th drive rack 4-15;Second solar panels structure 5;Main drive gear 5-1;Master turns axis 5-2;From drive gear
5-3;From turning axis 5-4;Drive rod 5-5;Drive geosynclinal block 5-6;Second displacement solar panels 5-7;Fulcrum 5-8;Battery group 6.
Specific embodiment
The present invention is described in further detail below in conjunction with the accompanying drawings.
It is fixedly connected described in the present apparatus and refers to and be fixed by the modes such as weld, be screwed, in conjunction with different
Use environment, using different fixed forms, the rotation connection refers to by drying bearing on axis, is kept off by elasticity
Circle realizes the axial restraint of bearing, realizes that rotation, described being slidably connected refer to that the sliding by sliding block in sliding slot is connected
It connects.
Specific embodiment 1:
As shown in FIG. 1 to FIG. 9, a kind of power electronic technique energy saver, including lampshade 1, rear operation shell 2, right operation
Shell 3, driving adjustment structure 4, the second solar panels structure 5 and battery group 6, the rear operation shell 2 and right operation shell
Body 3 is respectively fixedly connected with rear end and right end in lampshade 1, and driving adjustment structure 4 is rotatably connected on lampshade 1, rear operation 2 and of shell
In right operation shell 3, the second solar panels structure 5 is provided with multiple, and multiple second solar panels structures 5 are rotatably connected on lamp
In cover 1, multiple second solar panels structures 5 are meshed with driving adjustment structure 4, and battery group 6 is fixedly connected on right operation
The right end of shell 3.Lampshade 1 is threadedly attached on strength shot-light or high-pressure sodium lamp, makes the lamp of strength shot-light or high-pressure sodium lamp
Light is projected by lampshade 1, and driving adjustment structure 4 realizes that adjustment absorbs by adjusting angle of the solar panels in lampshade 1
The efficiency of energy makes luminous energy be converted into electric energy, and savings are arrived in battery group 6, realizes and recycles, while being also used for driving adjusting and tie
The electricity of structure 4 supplies, and realizes energy conservation and uses.
Specific embodiment 2:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment one, and the lampshade 1 includes lampshade
Shell 1-1, support frame 1-2, the first rack gear sliding groove 1-3, the second rack gear sliding groove 1-4 and third rack gear sliding groove 1-5, support frame
1-2 is fixedly connected in Lamp housing 1-1, the first rack gear sliding groove 1-3, the second rack gear sliding groove 1-4 and third rack gear sliding groove
1-5 is successively from right to left through the rear end of Lamp housing 1-1 and support frame 1-2.
Specific embodiment 3:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment two, rear operation shell 2 packet
It includes rear operation box 2-1 and rotation circular hole 2-2, rear operation box 2-1 is fixedly connected on the rear end of Lamp housing 1-1, rotation circular hole 2-2 is set
Set the right end in rear operation box 2-1;
The right operation shell 3 includes right operation box 3-1, rack gear sliding slot 3-2, first rotating shaft turn hole 3-3, the second shaft
Turn hole 3-4 and wire through-hole 3-5, right operation box 3-1 are fixedly connected on the right end of Lamp housing 1-1, and rack gear sliding slot 3-2 runs through front and back
Right operation box 3-1, first rotating shaft turn hole 3-3 and the second shaft turn hole 3-4 successively run through the right end of Lamp housing 1-1 from front to back
It is arranged on right operation box 3-1 with support frame 1-2, wire through-hole 3-5, inside right operation box 3-1 connection Lamp housing 1-1.
Specific embodiment 4:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment three, the driving adjustment structure 4
Including driving small machine 4-1, lateral shaft 4-2, driving gear 4-3, the first lateral driven gear 4-4, the second lateral driven tooth
4-5, third transverse direction driven gear 4-6, second longitudinal direction driven gear 4-7, first longitudinal direction driven gear 4-8, second longitudinal direction is taken turns to turn
Axis 4-9, first longitudinal direction shaft 4-10, the first drive rack 4-11, the first displacement solar panels 4-12, the second drive rack 4-
13, third drive rack 4-14 and the 4th drive rack 4-15, driving small machine 4-1 are fixedly connected on the right side of rear operation box 2-1
End, the transmission shaft of driving small machine 4-1 are rotatably connected in rotation circular hole 2-2, and the transmission shaft of driving small machine 4-1 passes through shaft coupling
Device connects the right end of lateral shaft 4-2, and the left end of lateral shaft 4-2 is rotatably connected on the left end of rear operation box 2-1 inner wall, drives
Gear 4-3, the first lateral driven gear 4-4, the second transverse direction driven gear 4-5 and third transverse direction driven gear 4-6 are from left to right
It is fixedly connected sequentially on lateral shaft 4-2, second longitudinal direction driven gear 4-7 and first longitudinal direction driven gear 4-8 are fixed respectively
It is connected on second longitudinal direction shaft 4-9 and first longitudinal direction shaft 4-10, second longitudinal direction driven gear 4-7 and first longitudinal direction driven tooth
Wheel 4-8 is arranged in right operation box 3-1, and first longitudinal direction shaft 4-10 and second longitudinal direction shaft 4-9 difference clearance fit are the
In one shaft turn hole 3-3 and the second shaft turn hole 3-4, the left and right ends of first longitudinal direction shaft 4-10 and second longitudinal direction shaft 4-9
Left and right ends be rotatably connected on the left end of Lamp housing 1-1 inner wall and the right end of right operation box 3-1 inner wall, the first drive rack
The lower end of 4-11 from front to back successively with first longitudinal direction driven gear 4-8, second longitudinal direction driven gear 4-7 and driving gear 4-3
It is meshed, the first drive rack 4-11 is slidably connected in rack gear sliding slot 3-2, and the first displacement solar panels 4-12 is provided with six
A, three first displacement solar panels 4-12 are successively fixed in the rear end of first longitudinal direction shaft 4-10 from left to right, and second longitudinal direction turns
Three first displacement solar panels 4-12, the second drive rack 4-13, third driving are successively fixed in the rear end of axis 4-9 from left to right
Rack gear 4-14 and the 4th drive rack 4-15 be slidably connected at respectively the first rack gear sliding groove 1-3, the second rack gear sliding groove 1-4 and
In third rack gear sliding groove 1-5, the lower end of the second drive rack 4-13, third drive rack 4-14 and the 4th drive rack 4-15
Two the second solar panels structures 5 of engagement connection respectively.
Specific embodiment 5:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment four, second solar panels
There are six the settings of structure 5, the second solar panels structure 5 include main drives gear 5-1, it is main turn axis 5-2, from drive gear 5-3, from drive
Shaft 5-4, drive rod 5-5, driving geosynclinal block 5-6, second displacement solar panels 5-7 and fulcrum 5-8, main drive gear 5-1 rotation connect
It connects in the main left end for turning axis 5-2, is rotatably connected on from gear 5-3 is driven from the left end for turning axis 5-4, the main right side for turning axis 5-2
End and be fixedly connected on the inner wall of Lamp housing 1-1 right end from the right end for turning axis 5-4, it is main drive gear 5-1 right end with from
It drives gear 5-3 to be meshed, the front end of drive rod 5-5 is fixedly connected on from the eccentric part for driving the rear end gear 5-3, drive rod 5-5's
Rear end is slidably connected in driving geosynclinal block 5-6, and the rear end of driving geosynclinal block 5-6 is fixedly connected with second displacement solar panels 5-7, and second
The upper end of displacement solar panels 5-7 is provided with pre-and post perforative circular hole, and fulcrum 5-8 clearance fit is in second displacement solar panels 5-
In the circular hole of 7 upper ends, the rear end of fulcrum 5-8 is fixedly connected on support frame 1-2;
The upper end of two second solar panels structures 5 on the right side is meshed with the second drive rack 4-13, in
Between the upper ends of two the second solar panels structures 5 be meshed with third drive rack 4-14, two second sun in left side
The upper end of the hardened structure 5 of energy is meshed with the 4th drive rack 4-15.
Specific embodiment 6:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment five, and the battery group 6 is fixed
It is connected to the right end of right operation box 3-1, six first displacement solar panels 4-12 and six second displacement solar panels 5-7's is equal
The charging end of battery group 6 is connected by electric wire, a discharge end of battery group 6 connects driving small machine 4-1 by electric wire.
Remaining discharge end of battery group 6 can be used for the function that mobile phone charging or warming heating etc. are easy to use on the square shot-light Xia Huo
Energy.
The operation principle of the present invention is that: the upper end of Lamp housing 1-1, which is threadably secured, is connected to strength shot-light or high-pressure sodium
On lamp, six first displacement solar panels 4-12 and six second displacement solar panels 5-7 in Lamp housing 1-1 are strongly penetrated
The irradiation or refraction of the light of lamp or high-pressure sodium lamp, absorb light, are allowed to be converted into electric energy and are stored into battery group 6, make
Remaining discharge end of battery group 6 can be used for the function that mobile phone charging or warming heating etc. are easy to use on the square shot-light Xia Huo
Can, when demand electricity is not caught up in use, giving driving small machine 4-1 power supply by battery group 6, make driving small machine 4-1 just
Rotation drives lateral shaft 4-2, driving gear 4-3, the first lateral driven gear 4-4, the second transverse direction driven gear 4-5 and third
Lateral driven gear 4-6 dextrorotation, driving gear 4-3 drives the first drive rack 4-11 anterior displacement, and then drives second longitudinal direction
Driven gear 4-7, first longitudinal direction driven gear 4-8, second longitudinal direction shaft 4-9 and first longitudinal direction shaft 4-10 dextrorotation, second is vertical
It drives six first displacement solar panels 4-12 to rotate clockwise certain angle to shaft 4-9 and first longitudinal direction shaft, makes strength
The light direct irradiation of shot-light or high-pressure sodium lamp is on six first displacement solar panels 4-12;First lateral driven gear simultaneously
4-4, the second transverse direction driven gear 4-5 and third transverse direction driven gear 4-6 drive six main drive gear 5-1 from right up time to the left
Needle rotates, and then drives six to rotate counterclockwise to the left from drive gear 5-3 from right, and then by six drive rod 5-5 six
It drives six driving geosynclinal block 5-6 to rotate by a certain angle counterclockwise in a driving geosynclinal block 5-6, and then drives six second displacement sun
Energy plate 5-7 rotates by a certain angle counterclockwise on six fulcrum 5-8, and the light direct irradiation of strength shot-light or high-pressure sodium lamp is made to exist
On six second displacement solar panels 5-7, and then adjust six first displacement solar panels 4-12 and six second displacement sun
The angle of energy plate 5-7, increases the area of the light direct irradiation of strength shot-light or high-pressure sodium lamp, and then luminous energy is made to be converted into electricity
Can electricity increase, and then increase battery group 6 storage electricity, for drive small machine 4-1 use and mobile phone charging or
The function that warming heating etc. is easy to use on the square shot-light Xia Huo reversely rotates driving small machine 4-1 then by six first
Solar panels 4-12 and six second displacement solar panels 5-7 is moved to keep in the center.
Above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art it is common
The variations, modifications, additions or substitutions that technical staff is made within the essential scope of the present invention also belong to protection model of the invention
It encloses.