CN106909173A - Polar region solar energy rack assemble method - Google Patents

Polar region solar energy rack assemble method Download PDF

Info

Publication number
CN106909173A
CN106909173A CN201710166465.8A CN201710166465A CN106909173A CN 106909173 A CN106909173 A CN 106909173A CN 201710166465 A CN201710166465 A CN 201710166465A CN 106909173 A CN106909173 A CN 106909173A
Authority
CN
China
Prior art keywords
gear
motor
season
fixed
day tracking
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201710166465.8A
Other languages
Chinese (zh)
Inventor
余伊尼
丁澍田
赖和平
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Wenzhou Conception Electromechanical Technology Co Ltd
Original Assignee
Wenzhou Conception Electromechanical Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Wenzhou Conception Electromechanical Technology Co Ltd filed Critical Wenzhou Conception Electromechanical Technology Co Ltd
Priority to CN201710166465.8A priority Critical patent/CN106909173A/en
Publication of CN106909173A publication Critical patent/CN106909173A/en
Pending legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D3/00Control of position or direction
    • G05D3/12Control of position or direction using feedback

Abstract

The present invention relates to solar energy receiving device assemble method, polar region solar energy rack assemble method, including support cylinder, solar panels assembly, portal frame assembly, season motor, motor gear, the gear of rotation half, day tracking axis and day tracking motor, day tracking motor is fixedly mounted on cylinder baseplane;It is connected by shaft coupling between axle linkage section below day tracking axis and day tracking motor output shaft;Season motor is fixed on season motor screw, and arbor flat key transmitting torque is passed through between season motor output shaft and motor gear endoporus;It is intermeshed between motor gear and the gear of rotation half;Described solar panels assembly is fixed on gear connecting plate;As improvement:Assembling process step is as follows:Support cylinder and day tracking axis installation, portal frame assembly, season motor, motor gear and the gear of rotation half are installed, gantry rotating disk and day tracking axis installation, solar panels assembly and the gear of rotation half are installed;Install safe convenient from the bottom to top.

Description

Polar region solar energy rack assemble method
Technical field
The present invention relates to solar energy receiving device assemble method, specially international Patent classificating number G05D, polar region solar energy Rack assemble method.
Background technology
Limit is nearer it is to, the meteorological and climate characteristic of polar region is more obvious.There, the time of 1 year there was only one day one Night.Even if in the time in midsummer, the sun also simply hangs on southern horizon far away, sends out gloomy white light.What the sun rose Maximum height not over 23.5 °, i.e., the maximum angle between direct sunlight line and baseplane horizontal line(β angles)Not over 23.5.More time sunshine is to be similar to level angle irradiation, the winter of the arctic be very long, cold and dark from annual November 23 started, and the track of sun operation is gradually close to horizon, is even irradiated less than level angle, is seen in earth's surface Lose the sun.
The content of the invention
Solar energy receiving plane angle can may be adjusted to below horizontal, and energy it is an object of the invention to provide one kind Follow within 24 hours what sunshine rotated, with the particular problem for solving to be proposed in above-mentioned background technology.
Polar region solar energy rack assemble method, including support cylinder, solar panels assembly, portal frame assembly, season Motor, motor gear, the gear of rotation half, day tracking axis and day tracking motor, fixedly mount day tracking motor on cylinder baseplane; It is connected by shaft coupling between axle linkage section below day tracking axis and day tracking motor output shaft;Season motor is fixed on season On motor screw, arbor flat key transmitting torque is passed through between season motor output shaft and motor gear endoporus;Motor gear and pendulum Turn to be intermeshed between half gear;Described solar panels assembly is fixed on gear connecting plate;As improvement:Assembling process is walked It is rapid as follows:
(One), support cylinder and day tracking axis install
Cylinder lower flange is fixed on eminence ground or other additional high tower support frames, bore maintenance door is opened, day is tracked Motor is placed on cylinder baseplane;The day tracking axis that a pair of zanjon bearings and axle jump ring will be combined with is put into cylinder bore It is interior so that zanjon bearing top circle is located on cylinder bore, and it is rotatable on step concave surface that axle turns disk lower plane;Axle is connected Be connected by shaft coupling between Duan Yu tracking motor output shafts, it is ensured that day tracking axis vertical rotary, day tracking motor is consolidated It is scheduled on cylinder baseplane, shuts bore maintenance door.
(Two), portal frame assembly, season motor, motor gear and the gear of rotation half install
One gantry riser is hollowed out across gear, and gear fixed via is aligned with escapement axis hole, turns to pass through escapement axis hole successively With gear fixed via, gear pivot pin is movably fixed on escapement axle bed, for can axle between gear pivot pin and gear fixed via To rotatable engagement, it is intermeshed between motor gear and the gear of rotation half;
Four gantry screws pass through riser fixing hole and riser bottom screw immovable fitting, and monosymmetric gantry riser is fixed on Plane on the rotating disk of gantry, plane on the rotating disk of gantry is placed on by described season motor, and season motor output shaft passes through arbor and leads to , be placed on first gear back-up ring on season motor output shaft successively by hole, and arbor flat key is placed on into season motor output shaft On keyway, motor gear inner hole key slot alignment arbor flat key is inserted on season motor output shaft, and second gear back-up ring is placed on On season motor output shaft;First gear back-up ring end flat is located between motor gear inner side plane and gantry riser, the Two gear back-up ring end flats are located between motor gear medial plane and gantry riser;Four seasons, motor screw will be described Season motor is fixed on season motor screw.
(Three), gantry rotating disk and day tracking axis install
Center positioning hole is enclosed within axle positioning section, is rotationally moved so that rotating disk fixing hole is aligned with rotating disk screw, three turn Valve snail nail passes through rotating disk fixing hole and gantry rotating disk is fixed on axle and turns plane on disk by rotating disk screw immovable fitting.
(Four), solar panels assembly and the gear of rotation half install
Gear connecting plate is fastenedly connected with plate interior beam with least two tapping screws so that solar panels assembly and rotation half Into an entirety between gear.
The beneficial effects of the invention are as follows:
One gantry riser is hollowed out across gear, and gear fixed via is aligned with escapement axis hole, and gear pivot pin passes through pendulum successively Axle hole and gear fixed via, gear pivot pin are movably fixed on escapement axle bed, between gear pivot pin and gear fixed via For can axial-rotation coordinate, between motor gear and the gear of rotation half be intermeshed, improve portal frame assembly rigidity;By it is lower extremely It is upper to install safe convenient:Support cylinder and day tracking axis installation, portal frame assembly, season motor, motor gear and the tooth of rotation half Wheel is installed, gantry rotating disk and day tracking axis installation, solar panels assembly and the gear of rotation half are installed;As long as by the cylinder in the present invention Body lower flange is fixed on ground or enough eminence ground or other additional high tower support frames, can be achieved with sun irradiation angle etc. Remain able to obtain sunshine ability when horizontal line.
Brief description of the drawings
Fig. 1 is stereo appearance figure of the invention.
Fig. 2 is front view of the invention.
Fig. 3 is the lateral plan of Fig. 2, and solar energy receiving plane angle is more than level.
Fig. 4 is that the solar energy receiving plane angle in Fig. 3 is below horizontal.
Fig. 5 is the A-A profiles in Fig. 4.
Fig. 6 is the partial enlarged drawing at the sliding ball 80 in Fig. 5.
Fig. 7 is that the state diagram except after the outer half 82 of sliding pearl seat is unloaded in pearl seat stepped hole 16 in Fig. 6.
Fig. 8 is the partial enlarged drawing of half 81 or the outer half 82 of sliding pearl seat in the sliding pearl seat in Fig. 6.
Fig. 9 unloads the shape with pearl seat is slided after outer half 82 except the sliding interior half 81 of pearl seat for the pearl stepped hole 16 in Fig. 6 is interior State figure.
Figure 10 is the partial enlarged drawing that the solar panels assembly 20 in Fig. 3 is connected with the gear 52 of rotation half.
Figure 11 is the independent view of portal frame assembly 40 in Fig. 4.
Figure 12 is Figure 11 side views.
Figure 13 is Figure 12 top views.
Figure 14 be in Fig. 5 day tracking axis 70 and a pair of zanjon bearings 75 and axle jump ring 71 assembled view.
Figure 15 is polar region direct sunlight line schematic diagram.
Specific embodiment
The invention will be further elucidated with reference to specific embodiments.
Such as Fig. 1 to Fig. 5, polar region solar energy rack assemble method, including support cylinder 10, solar panels assembly 20, Portal frame assembly 40, season motor 50, motor gear 51, the gear 52 of rotation half, day tracking axis 70 and day tracking motor 90, as Improve:
In Fig. 1 to Fig. 5, there are cylinder lower flange 11 and cylinder upper flange 14 on described support cylinder 10, on cylinder upper flange 14 There is step concave surface 18, there is cylinder bore 17 at the center of step concave surface 18, there is bore maintenance door 15, bore inspection on support cylinder 10 is cylindrical Door 15 is repaiied with cylinder bore 17 together with fixed installation day tracking motor 90 on the cylinder baseplane 19 of the bottom of cylinder bore 17;
In Fig. 5 and Figure 14, there are axle jump-ring slot 74 and an axle linkage section 79 in the described lower section of day tracking axis 70 successively, on day tracking axis 70 Fang Yici has bearing shoulder block 77, axle to turn disk 72 and axle positioning section 76, and axle turns have three rotating disk screws 73 on disk 72, and a pair deep Ditch bearing 75 is located on day tracking axis 70, and axle jump ring 71 is located at the axial displacement of limitation zanjon bearing 75 in axle jump-ring slot 74, deep Ditch bearing 75 is cylindrical on cylinder bore 17, and it is rotatable on step concave surface 18 that axle turns the lower plane of disk 72, axle linkage section It is connected by shaft coupling 91 between 79 and the output shaft of day tracking motor 90;
And shown in Figure 10 to Figure 14, described portal frame assembly 40 includes gantry rotating disk 60 and monosymmetric gantry riser 45, the upper end of gantry riser 45 is integrally-built gantry beam 41, there is a pair of escapement axle beds 42, escapement axle bed on gantry beam 41 There is escapement axis hole 43 on 42;The all organic shaft through-hole 44 of gantry riser 45 of both sides, there is riser bottom spiral shell on the baseplane of gantry riser 45 Hole 46;There are season motor screw 62, rotating disk fixing hole 63 and riser fixing hole 64 and center positioning hole 67, two on gantry rotating disk 60 The symmetrical gantry riser 45 in side is fixed on plane on gantry rotating disk 60, is rotatable between center positioning hole 67 and axle positioning section 76 Coordinate, gantry rotating disk 60 is fixed on axle and turns plane on disk 72, and described season motor 50 is fixed on season motor screw 62, season The section output shaft of motor 50 passes through arbor through hole 44, and arbor flat key is passed through between the output shaft of season motor 50 and the endoporus of motor gear 51 59 transmitting torques, a pair of gear back-up rings 55 respectively positioned at gantry riser 45 of the both sides of motor gear 51, slide by the endoporus of gear back-up ring 55 Dynamic engagement sleeves are on the output shaft of season motor 50;
In Fig. 1 to Fig. 5 and Figure 10, there are gear supporting plate 57 and gear to hollow out 54, gear support on the described gear 52 of rotation half There are gear connecting plate 56 and gear to fix gusset 53 on plate 57, gear is fixed on gusset 53 gear fixed via 58;Gear shaft Pin 48 passes through escapement axis hole 43 and gear fixed via 58 successively, and being between gear pivot pin 48 and gear fixed via 58 can be axial Rotatable engagement, is intermeshed between motor gear 51 and the gear 52 of rotation half;Described solar panels assembly 20 includes being indulged in plate Frame 24 and solar panel 28 are indulged outside the outer horizontal frame 23 of crossbeam 22, plate and plate in beam 21, plate, plate interior beam 21 is fixed on gear On connecting plate 56.
In Fig. 3, Fig. 4 and Figure 10, as further improvement:Teeth covering cambered surface angle on the described gear 52 of rotation half It is 280, it is 320 degree that described gear hollows out 54 cambered surface angles, it is 430 millimeters, described gear that gear hollows out 54 cambered surface radius The fixed width of gusset 53 is 110 millimeters.Ensure that the gear 52 of rotation half can drive solar panels assembly 20 to rotate to shining upon Angle is minus 5 to minus 10 longitude.
In Fig. 5, Fig. 6, Fig. 7, Fig. 8 and Fig. 9, as further improvement:There is pearl seat stepped hole on described step concave surface 18 16, the pearl seat circumference of stepped hole 16 has coaxial relation with cylinder bore 17, has stepped hole on step in pearl seat stepped hole 16 There is pearl seat blind hole 12 at plane 13, the center of stepped hole plane 13;Half 81 and the outer shape and structure chi of half 82 of sliding pearl seat in sliding pearl seat It is very little identical, sliding pearl seat cylindrical 87, sliding pearl seat faying face 84, sliding pearl seat lateral surface 85 are all included, have on sliding pearl seat faying face 84 Circular hole 88 in sliding pearl seat, the bottom of circular hole 88 is connected to slide the pearl seat stub end of internal taper hole 83 in sliding pearl seat, and sliding pearl seat internal taper hole 83 is small Head end intersects with described sliding pearl seat lateral surface 85;
Half 81 and the outer half 82 of sliding pearl seat in the simultaneously fixed sliding pearl seat of the described pearl seat inner circle of stepped hole 16, half in sliding pearl seat Be slidably matched fixed sliding in sliding pearl seat on piece 81 and the outer half 82 of sliding pearl seat between circular hole 88 and sliding pearl seat internal taper hole 83 Ball 80;The outer portion that the half 81 in sliding pearl seat is protruded on sliding ball 80 is interior prominent sphere 86, the interior quilt of prominent sphere 86 It is contained among described pearl seat blind hole 12;The prominent outer portion in the outer half 82 of sliding pearl seat is outer prominent ball on sliding ball 80 Face 89, outer prominent sphere 89 is contacted with described reel lower plane 78.
In Figure 14, as further improvement:Described axle turns the lower plane of disk 72 for reel lower plane 78, reel lower plane There is the hard copper alloy coating that a layer thickness is 0.31 to 0.33 millimeter on 78, the copper alloy steel material is by following percentage by weight Element composition:Cu:17.7%、W:2.7%、Cr:2.3%、Mo:1.8%、Ti:1.5%、Ni:1.2%、C:1.1%, balance of Fe and Inevitable impurity;The weight percent content of the impurity is:Si is that 0.18%, S is that 0.011%, P is 0.013%, and this is hard The rockwell superficial hardness number of matter copper alloy coating 68 is HRC65.
In embodiment, the Antarctic circle and the Arctic Circle are that polar day, the boundary line of polar night phenomenon occur on the earth Southern Hemisphere and the Northern Hemisphere. The earth's axis of the earth itself is inclined to be simplified and is ignored, as a example by South Pole use, set the winter solstice(December 22-23 days or so) Sunlight angle is nearly positive 23.5 longitude, the setting Spring Equinox day(March 20-21 days or so)Sun irradiation angle is nearly 0 Longitude(Horizontal line), the ratio between the reference radius between motor gear 51 and the gear 52 of rotation half is 1 to 2, and season motor 50 is adopted Use a stepper motor.
Season motor 50 be set as a season in winter solstice to Spring Equinox day during in amount to 48 degree of rotate counterclockwise, drive The gear 52 of rotation half and solar panels assembly 20 amount to 24 degree of longitudes of rotate counterclockwise, it is ensured that solar panels assembly 20 and the sun It is synchronous that light is maintained at myopia on longitude.
In the six months in Spring Equinox day to the Autumnal Equinox day, because the South Pole is in polar night phenomenon, it is impossible to using solar energy without Acting, season motor 50 and day tracking motor 90 do not work.
Season motor 50 be set as a season of Autumnal Equinox day to winter solstice during in amount to and turn clockwise 48 degree, drive The gear 52 of rotation half and solar panels assembly 20 amount to the 24 degree of longitudes that turn clockwise, it is ensured that solar panels assembly 20 and the sun It is synchronous that light is maintained at myopia on longitude.
Day, tracking motor 90 was using another deliberate steps stepper motor.Day tracking motor 90 is set as that following sunlight rotation turns around, band Dynamic day tracking axis 70, gantry rotating disk 60 and solar panels assembly 20 are also followed sunlight rotation and are turned around(360 dimensions).
If being used in the arctic, need to only change the setup parameter of season motor 50 and day tracking motor 90 just.
As long as the cylinder lower flange 11 in the present invention is fixed on into ground or enough eminence ground or other additional high tower branch On support, remain able to obtain sunshine ability when can be achieved with sun irradiation angle equal to or less than horizontal line, whole year will Having can obtain solar energy in more than half year.
Assembling process step is as follows:
(One), support cylinder 10 and day tracking axis 70 install
Cylinder lower flange 11 is fixed on eminence ground or other additional high tower support frames, bore maintenance door 15 is opened, by day Tracking motor 90 is placed on cylinder baseplane 19;The day tracking axis 70 of a pair of zanjon bearings 75 and axle jump ring 71 will be combined with It is put into cylinder bore 17 so that zanjon bearing 75 is cylindrical on cylinder bore 17, axle turns the rotatable position of the lower plane of disk 72 In on step concave surface 18;To be connected by shaft coupling 91 between axle linkage section 79 and the output shaft of day tracking motor 90, it is ensured that day The vertical rotary of tracking axis 70, day tracking motor 90 is fixed on cylinder baseplane 19, shuts bore maintenance door 15.
(Two), portal frame assembly 40, season motor 50, motor gear 51 and the gear 52 of rotation half install
One gantry riser 45 hollows out 54 across gear, and gear fixed via 58 is aligned with escapement axis hole 43, gear pivot pin 48 Escapement axis hole 43 and gear fixed via 58 are passed through successively, and gear pivot pin 48 is movably fixed on escapement axle bed 42, gear pivot pin Being between 48 and gear fixed via 58 can axial-rotation cooperation, intermeshing between motor gear 51 and the gear 52 of rotation half;
Four gantry screws 47 pass through riser fixing hole 64 and the immovable fitting of riser bottom screw 46, by monosymmetric gantry riser 45 are fixed on plane on gantry rotating disk 60, and described season motor 50 is placed on into plane on gantry rotating disk 60, season motor 50 Output shaft passes through arbor through hole 44, and first gear back-up ring 55 is placed on the output shaft of season motor 50 successively, and arbor is put down Key 59 is placed in the output shaft key groove of season motor 50, and the inner hole key slot of motor gear 51 alignment arbor flat key 59 is inserted in season motor On 50 output shafts, second gear back-up ring 55 is placed on the output shaft of season motor 50;First end flat of gear back-up ring 55 Between the inner side plane of motor gear 51 and gantry riser 45, second end flat of gear back-up ring 55 is located at motor gear 51 Between medial plane and gantry riser 45;Four seasons, described season motor 50 was fixed on season motor screw 62 by motor screw On.
(Three), gantry rotating disk 60 installs with day tracking axis 70
Center positioning hole 67 is enclosed within axle positioning section 76, is rotationally moved so that rotating disk fixing hole 63 and rotating disk screw 73 pairs Standard, three rotating disk screws pass through rotating disk fixing hole 63 and gantry rotating disk 60 is fixed on axle and turns disk by the immovable fitting of rotating disk screw 73 Plane on 72.
(Four), solar panels assembly 20 installs with the gear 52 of rotation half
Gear connecting plate 56 is fastenedly connected with plate interior beam 21 with least two tapping screws so that solar panels assembly 20 with Into an entirety between the gear 52 of rotation half.
The substantive distinguishing features of the above-mentioned protrusion of the present invention, drive following significant progressive effect:
1st, solar panels assembly 20 is integrally attached on gear fixation gusset 53, and half gear of rotation 52 sets gear and hollows out 54 and tooth The fixed gusset 53 of wheel so that run through the gear 52 of rotation half for integrally-built gantry riser 45 can be crossed over gantry beam 41, The rigidity of portal frame assembly 40 is improve, gear hollows out 54 cambered surface angles more than 300 degree, it is ensured that the gear 52 of rotation half can drive too Positive energy plate assembly 20 is rotated to sun irradiation angle for minus 5 to minus 10 longitude, as long as the cylinder lower flange 11 in the present invention is consolidated Water is equal to or less than due on ground or enough eminence ground or other additional high tower support frames, can be achieved with sun irradiation angle Remain able to obtain sunshine ability during horizontal line.
2nd, day tracking axis 70 set zanjon bearing 75 it is cylindrical on cylinder bore 17, and axle turn the lower plane of disk 72 can Rotation is located on step concave surface 18, is solved radial positioning and is axially supported;Particularly have what annulus was arranged on step concave surface 18 Sliding ball 80 so that day tracking axis 70 and its portal frame assembly 40 and solar panels assembly 20 of top can easily make water Flat rotation.
3rd, it is easy to processing using split type between gantry riser 45 and gantry rotating disk 60, reduces material and manufacturing cost; Gantry rotating disk 60 turns disk 72 and uses Split type structure with axle, is easy to be connected between gantry riser 45 and gantry rotating disk 60, axle Positioning section 76 is engaged with center positioning hole 67, it is ensured that in portal frame assembly 40 and the energy of solar panels assembly 20 day tracking axis 70 Heart axis rotates.
4th, described reel lower plane 78 has one layer of hard copper alloy coating so that sliding ball 80 and reel lower plane 78 Between contact frictional resistance be greatly decreased.
5th, gantry riser 45 hollows out 54 across gear, gear fixed via 58 is aligned with escapement axis hole 43, gear Pivot pin 48 passes through escapement axis hole 43 and gear fixed via 58 successively, and gear pivot pin 48 is movably fixed on escapement axle bed 42, tooth Between axle pin 48 and gear fixed via 58 for can axial-rotation coordinate, between motor gear 51 and the gear 52 of rotation half mutually Engagement, improves the rigidity of portal frame assembly 40;Support cylinder 10 and day tracking axis 70 are installed, portal frame assembly 40, season motor 50th, motor gear 51 and the gear 52 of rotation half are installed, gantry rotating disk 60 70 is installed with day tracking axis, solar panels assembly 20 and pendulum Turn half gear 52 to install;Install safe convenient from the bottom to top.

Claims (1)

1. polar region solar energy rack assemble method, including support cylinder (10), solar panels assembly (20), portal frame assembly (40), season motor (50), motor gear (51), the gear of rotation half (52), day tracking axis (70) and day tracking motor (90), cylinder Day tracking motor (90) is fixedly mounted on body baseplane (19);Axle linkage section (79) below day tracking axis (70) tracks electricity with day It is connected by shaft coupling (91) between machine (90) output shaft;Season motor (50) was fixed on season motor screw (62), season Pass through arbor flat key (59) transmitting torque between motor (50) output shaft and motor gear (51) endoporus;Motor gear (51) and pendulum Turn to be intermeshed between half gear (52);Described solar panels assembly (20) is fixed on gear connecting plate (56);Its feature It is:Assembling process step is as follows:
(One), support cylinder (10) and day tracking axis (70) install
Cylinder lower flange (11) is fixed on eminence ground or other additional high tower support frames, bore maintenance door (15) is opened, Day tracking motor (90) is placed on cylinder baseplane (19);A pair of zanjon bearings (75) and axle jump ring (71) will be combined with Be put into day tracking axis (70) in cylinder bore (17) so that zanjon bearing (75) is cylindrical on cylinder bore (17), and axle turns Disk (72) lower plane is rotatable on step concave surface (18);By axle linkage section (79) and day tracking motor (90) output shaft it Between be connected by shaft coupling (91), it is ensured that day tracking axis (70) vertical rotary, day tracking motor (90) is fixed on cylinder bottom In plane (19), bore maintenance door (15) is shut.
(Two), portal frame assembly (40), season motor (50), motor gear (51) and the gear of rotation half (52) install
One gantry riser (45) hollows out (54) across gear, gear fixed via (58) is aligned with escapement axis hole (43), tooth Axle pin (48) passes through escapement axis hole (43) and gear fixed via (58) successively, and gear pivot pin (48) is movably fixed to balancing arbor Being on seat (42), between gear pivot pin (48) and gear fixed via (58) can axial-rotation cooperation, motor gear (51) and pendulum Turn to be intermeshed between half gear (52);
Four gantry screws (47) pass through riser fixing hole (64) and riser bottom screw (46) immovable fitting, by monosymmetric dragon Door riser (45) is fixed on plane on gantry rotating disk (60), described season motor (50) is placed on gantry rotating disk (60) and is put down Face, season motor (50) output shaft passes through arbor through hole (44), and first gear back-up ring (55) is placed on into season motor successively (50) on output shaft, arbor flat key (59) is placed in season motor (50) output shaft key groove, motor gear (51) endoporus key Groove is directed at arbor flat key (59) and is inserted on season motor (50) output shaft, and second gear back-up ring (55) is placed on season motor (50) on output shaft;First gear back-up ring (55) end flat is located at motor gear (51) inner side plane and gantry riser (45) Between, second gear back-up ring (55) end flat is located between motor gear (51) medial plane and gantry riser (45);Four Season, be fixed on described season motor (50) on season motor screw (62) by motor screw.
(Three), install gantry rotating disk (60) and day tracking axis (70)
Center positioning hole (67) is enclosed within axle positioning section (76), is rotationally moved so that rotating disk fixing hole (63) and rotating disk screw (73) it is aligned, three rotating disk screws pass through rotating disk fixing hole (63) and consolidate gantry rotating disk (60) with rotating disk screw (73) immovable fitting It is scheduled on axle and turns plane on disk (72).
(Four), solar panels assembly (20) and the gear of rotation half (52) install
Gear connecting plate (56) is fastenedly connected with plate interior beam (21) with least two tapping screws so that solar panels assembly (20) into an entirety and the gear of rotation half (52) between.
CN201710166465.8A 2017-03-20 2017-03-20 Polar region solar energy rack assemble method Pending CN106909173A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201710166465.8A CN106909173A (en) 2017-03-20 2017-03-20 Polar region solar energy rack assemble method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201710166465.8A CN106909173A (en) 2017-03-20 2017-03-20 Polar region solar energy rack assemble method

Publications (1)

Publication Number Publication Date
CN106909173A true CN106909173A (en) 2017-06-30

Family

ID=59194450

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201710166465.8A Pending CN106909173A (en) 2017-03-20 2017-03-20 Polar region solar energy rack assemble method

Country Status (1)

Country Link
CN (1) CN106909173A (en)

Similar Documents

Publication Publication Date Title
EP2546975B1 (en) Sunlight-tracking device
US20090301467A1 (en) Control Method and Device for Quasi-Uniaxial Sun Chase of Solar Panels
CN106931667A (en) Polar region solar energy receives copper alloy frame
CN201523016U (en) Sunlight tracking device
DE102005042478A1 (en) Tracking system for a solar energy collection unit has controlled drives to adjust position by turning and tilting
CN101173826A (en) Sun tracing apparatus
CN102055378A (en) Sunlight tracker
CN106909173A (en) Polar region solar energy rack assemble method
CN101893899B (en) Solar tracing device with combined bearing turntable
CN206573946U (en) A kind of polar region solar energy rack
CN107204736A (en) The mechanical device that a kind of combination type solar generates electricity
CN207354202U (en) A kind of solar energy equipment for automatically adjusting tracking
CN201656832U (en) Semi-automatic sunlight tracking device
CN106160639A (en) The solar cell intelligence settled date follows the tracks of robot
CN205908166U (en) Heavy hinge subassembly and radiation shield door hinge
CN103123496A (en) Low-energy-consumption high-accuracy sunlight tracking device
KR20110133759A (en) Two axis high efficency solar light electric generating apparatus
CN101295944B (en) Solar two-dimension tracing apparatus
CN102768545A (en) Method for determining optimum tracking angles of photovoltaic tracking systems under standard equatorial coordinate system
CN105904465B (en) The automatic settled date tracking robot of solar cell
CN204302810U (en) Sun direct projection surface radiation sensor
CN203324654U (en) Ball-type specific gravity difference automatic winding mechanism of mechanical watch
CN209590259U (en) A kind of High Accuracy Radar servo turntable
CN206584665U (en) A kind of solar system tellurion
CN208557483U (en) A kind of robot base with mechanical arm

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination