CN201652107U - Three-dimensional automatic tracking lighting solar street lamp driven by perpendicular drive shaft semi-gear - Google Patents
Three-dimensional automatic tracking lighting solar street lamp driven by perpendicular drive shaft semi-gear Download PDFInfo
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- CN201652107U CN201652107U CN 201020147199 CN201020147199U CN201652107U CN 201652107 U CN201652107 U CN 201652107U CN 201020147199 CN201020147199 CN 201020147199 CN 201020147199 U CN201020147199 U CN 201020147199U CN 201652107 U CN201652107 U CN 201652107U
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- spur gear
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- tooth spur
- drive shaft
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/72—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps in street lighting
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Abstract
The utility model relates to a three-dimensional automatic tracking lighting solar street lamp driven by a perpendicular drive shaft semi-gear, which comprises a solar cell panel, a reduction box body, a support, a motor I, a small straight gear I, a big straight gear I, a worm rod I, a worm wheel I, a vertical drive shaft, a motor II 10, a small straight gear II, a big straight gear II, a worm rod II, a worm wheel II, a horizontal drive shaft, a connecting frame, a horizontal connecting shaft I, a horizontal connecting shaft II, a support frame, a control system circuit board and a depression angle tracking drive mechanism connected with the horizontal drive shaft and arranged outside the reduction box body. A mechanical drive mechanism comprising a vertical drive shaft, a horizontal drive shaft, worm wheels, worm rods, straight gears and the like is driven through two motors to drive the solar cell panel to complete the solar light tracking motion along the horizontal direction and the vertical direction and can be used for driving the solar cell panel of the solar street lamp to realize the automatic tracking of the solar light collection.
Description
Affiliated technical field:
The utility model relates to a kind of solar panel tracking technique, particularly a kind of vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp that can be used for automatically tracing sun by solar cell panel, this device can drive the cell panel of solar street light from the motion tracking sunshine.
Background technology:
Solar energy is a kind of clean energy resource, inexhaustible, nexhaustible, can not cause environmental pollution yet, nowadays, no matter in coastal cities, still in inland city, solar product enters people's the visual field just more and more, solar street light, solar lawn lamp, solar energy garden lamp, solar corridor lamp, bus station's desk lamp, traffic lights or the like.But the solar energy receiving element of these solar products receives sunshine in the fixed-site mode mostly, because of can not whole day keeping vertical with sunshine, causes solar energy utilization ratio low.Therefore can the solar energy receiving element in use aim at the sun all the time, just becomes the problem of paying close attention to the most when people utilize solar energy.
In recent years, external in the photovoltaic matrix of some solar power stations, realized sunshine from motion tracking, domestic also have similar experimental rig, but these apparatus structure complexity, the cost height is difficult to use in small-sized home-use solar energy receiving equipments such as solar street light, solar lawn lamp.
The utility model content:
Bulky in order to overcome existing tracking means complicated in mechanical structure, and tracking means cost height, shortcomings such as energy consumption is big. the deficiency that the utility model exists at prior art, prior art is improved, proposed that a kind of volume is little, simple and reliable for structure, cost is low, followed the tracks of energy consumption is little and wind loading rating is strong solar tracking device, it can drive solar panel and finish level and the vertically tracking of both direction.
The technical scheme that its technical problem that solves the utility model adopts is: the mechanical driving mechanism that is made of motor one, small Spur gear one, large straight gear one, scroll bar one, turbine one and vertical driving shaft has been installed in the good deceleration box of intensity.
The mechanical driving mechanism that is made of motor two, small Spur gear two, large straight gear two, scroll bar two, turbine two and horizontal drive shaft also has been installed in deceleration box, vertically driving shaft is vertical mutually with horizontal drive shaft, also is provided with the depression angle-tracking driving mechanism that is connected with horizontal drive shaft outside deceleration box.
Motor one good being fixed on the deceleration box, vertically driving shaft is installed on the deceleration box by bearing and bearing bracket stand, scroll bar one is installed on the deceleration box by bearing and bearing bracket stand, scroll bar one is parallel to each other with the motor shaft of motor one, scroll bar one is with vertically driving shaft is vertical mutually, on the motor shaft that is fixed on motor one that the motor shaft concentric axis of small Spur gear one and motor one overlaps and small Spur gear one is firm, large straight gear one overlaps and large straight gear one firm being fixed on the scroll bar one with scroll bar one concentric shafts line, turbine one overlaps and turbine one firm being fixed on the vertical driving shaft with vertical driving shaft concentric axis, good mutually meshing of small Spur gear one and large straight gear one, good mutually meshing of scroll bar one and turbine one, vertically deceleration box is stretched out from the upper and lower of deceleration box in the two ends up and down of driving shaft.
A bearing has been installed in the deceleration box bottom, and what bearing was firm is fixed on the actionless object, vertically firm being fixed on this bearing in lower end of driving shaft.
A link has been installed on the top of deceleration box, vertically the upper end of driving shaft is by bearing and an end smooth be connected of bearing bracket stand with link, two 1 ends of link are by horizontal connecting axle one and horizontal connecting axle two and smooth being connected in the lower end of bracing frame, the middle part that is fixed on solar panel that the upper end of bracing frame is firm, horizontal connecting axle one and horizontal connecting axle two concentric axis overlap, link vertically driving shaft is the smooth rotation of axle, solar panel can horizontal connecting axle one and horizontal connecting axle two be the smooth rotation of axle, and link can to drive solar panel serve as the smooth rotation of axle with vertical driving shaft.
Motor two good being fixed on the deceleration box, horizontal drive shaft is installed on the deceleration box by bearing and bearing bracket stand, scroll bar two is installed on the deceleration box by bearing and bearing bracket stand, scroll bar two is parallel to each other with the motor shaft of motor two, scroll bar two is vertical mutually with horizontal drive shaft, on the motor shaft that is fixed on motor two that the motor shaft concentric axis of small Spur gear two and motor two overlaps and small Spur gear two is firm, large straight gear two overlaps and large straight gear two firm being fixed on the scroll bar two with scroll bar two concentric axis, turbine two overlaps and turbine two firm being fixed on the horizontal drive shaft with the horizontal drive shaft concentric axis, horizontal drive shaft is stretched out deceleration box from the both sides of deceleration box, the two ends that are fixed on horizontal drive shaft that small Spur gear three and small Spur gear four overlaps with the horizontal drive shaft concentric axis and small Spur gear three and small Spur gear four are firm, good mutually meshing of small Spur gear two and large straight gear two, good mutually meshing of scroll bar two and turbine two.
Depression angle-tracking mode one: semicircle internal tooth spur gear one and semicircle internal tooth spur gear two are installed outside deceleration box, good mutually meshing of small Spur gear three and semicircle internal tooth spur gear one, good mutually meshing of small Spur gear four and semicircle internal tooth spur gear two, semicircle internal tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and semicircle internal tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, semicircle internal tooth spur gear one is vertical mutually with solar panel, semicircle internal tooth spur gear two overlaps with horizontal connecting axle two concentric axis and semicircle internal tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and semicircle internal tooth spur gear two is vertical mutually with solar panel.
Depression angle-tracking mode two: quadrant internal tooth spur gear one and quadrant internal tooth spur gear two are installed outside deceleration box, good mutually meshing of small Spur gear three and quadrant internal tooth spur gear one, good mutually meshing of small Spur gear four and quadrant internal tooth spur gear two, quadrant internal tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and quadrant internal tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, quadrant internal tooth spur gear one is vertical mutually with solar panel, quadrant internal tooth spur gear two overlaps with horizontal connecting axle two concentric axis and quadrant internal tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and quadrant internal tooth spur gear two is vertical mutually with solar panel.
Depression angle-tracking mode three: semicircle external tooth spur gear one and semicircle external tooth spur gear two are installed outside deceleration box, good mutually meshing of small Spur gear three and semicircle external tooth spur gear one, good mutually meshing of small Spur gear four and semicircle external tooth spur gear two, semicircle external tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and semicircle external tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, semicircle external tooth spur gear one is vertical mutually with solar panel, semicircle external tooth spur gear two overlaps with horizontal connecting axle two concentric axis and semicircle external tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and semicircle external tooth spur gear two is vertical mutually with solar panel.
Depression angle-tracking mode four: quadrant external tooth spur gear one and quadrant external tooth spur gear two are installed outside deceleration box, good mutually meshing of small Spur gear three and quadrant external tooth spur gear one, good mutually meshing of small Spur gear four and quadrant external tooth spur gear two, quadrant external tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and quadrant external tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, quadrant external tooth spur gear one is vertical mutually with solar panel, quadrant external tooth spur gear two overlaps with horizontal connecting axle two concentric axis and quadrant external tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and quadrant external tooth spur gear two is vertical mutually with solar panel.
Motor shaft, small Spur gear one and large straight gear one by motor one when motor one rotates drive scroll bar one rotation, so will to drive deceleration box serve as that axle rotates with vertical driving shaft because of vertically driving shaft and turbine one maintain static scroll bar one, and horizontally rotate by the solar panel that deceleration box, link, horizontal connecting axle one, horizontal connecting axle two, horizontal connecting axle two and bracing frame drive are installed in deceleration box top.
Motor shaft, small Spur gear two and large straight gear two by motor two when motor two rotates drive scroll bar two rotations, and scroll bar two drives turbines two and rotates, and turbine two drives horizontal drive shaft and rotates.
That the rotation of horizontal drive shaft can drive is two that constitute by semicircle internal tooth spur gear one and semicircle internal tooth spur gear, two that constitute by quadrant internal tooth spur gear one and quadrant internal tooth spur gear, two that constitute by semicircle external tooth spur gear one and semicircle external tooth spur gear, by the various depression angle-tracking driving mechanisms that quadrant external tooth spur gear one and quadrant external tooth spur gear two constitute, finish the depression angle-tracking motion of solar panel.
When motor does not power up when rotating, because of the one-way and the irreversibility of the transmission of scroll bar and turbine, solar panel can not move under wind-force and other external force effects, so this device has good wind resistance.
The beneficial effects of the utility model are: by the one-way and the irreversibility of scroll bar and worm gear drive, can the now good Hangzhoupro wind performance in real township, and follow the tracks of that energy consumption is little, cost is low, and is simple and reliable for structure.
Description of drawings:
Below in conjunction with drawings and Examples the utility model is further specified.
Fig. 1 is overall structure figure of the present utility model.
Fig. 2 is the A-A cutaway view of overall structure figure of the present utility model.
Fig. 3 is overall structure figure and the B-B cutaway view of embodiment one of the present utility model.
Fig. 4 is the overall structure figure of embodiment two of the present utility model.
Fig. 5 is the overall structure figure of embodiment three of the present utility model.
In Fig. 1: solar panel 1, deceleration box 2, bearing 3, motor 1, small Spur gear 1, large straight gear 1, scroll bar 1, turbine 1, vertical driving shaft 9, motor 2 10, small Spur gear 2 11, large straight gear 2 12, scroll bar 2 13, turbine 2 14, horizontal drive shaft 15, link 26, horizontal connecting axle one 18-1, horizontal connecting axle two 18-2, bracing frame 19-1, control system circuit board 25.
The specific embodiment
In Fig. 1 and Fig. 2, the mechanical driving mechanism that is made of motor 1, small Spur gear 1, large straight gear 1, scroll bar 1, turbine 1, vertical driving shaft 9 and control system circuit board 25 has been installed in the good deceleration box 2 of intensity.
The mechanical driving mechanism that is made of motor 2 10, small Spur gear 2 11, large straight gear 2 12, scroll bar 2 13, turbine 2 14 and horizontal drive shaft 15 also has been installed in deceleration box 2, vertically driving shaft 9 is vertical mutually with horizontal drive shaft 15, also is provided with the driving mechanism that is connected with horizontal drive shaft 15 outside deceleration box 2.
Motor one 4 good being fixed on the deceleration box 2, vertically driving shaft 9 is installed on the deceleration box 2 by bearing and bearing bracket stand, scroll bar 1 is installed on the deceleration box 2 by bearing and bearing bracket stand, scroll bar 1 is parallel to each other with the motor shaft of motor 1, scroll bar 1 is with vertically driving shaft 9 is vertical mutually, on the motor shaft that is fixed on motor 1 that the motor shaft concentric axis of small Spur gear 1 and motor 1 overlaps and small Spur gear 1 is firm, large straight gear 1 overlaps and large straight gear one 6 firm being fixed on the scroll bar 1 with scroll bar one 7 concentric axis, turbine 1 overlaps and turbine one 8 firm being fixed on the vertical driving shaft 9 with vertical driving shaft 9 concentric axis, good mutually meshing of small Spur gear 1 and large straight gear 1, good mutually meshing of scroll bar 1 and turbine 1, vertically driving shaft 9 stretches out deceleration box 2 from the upper and lower of deceleration box 2.
A bearing 3 has been installed, bearing 3 firm being fixed on the actionless object, vertically firm being fixed on this bearing 3 in lower end of driving shaft 9 in the deceleration box bottom.
A link 26 has been installed on the top of deceleration box 2, vertically the upper end of driving shaft 9 is by bearing and smooth be connected of bearing bracket stand with link 26, link 26 is by horizontal connecting axle one 18-1 and horizontal connecting axle two 18-2 and smooth being connected in the lower end of bracing frame 19-1, horizontal connecting axle one 18-1 and horizontal connecting axle two 18-2 concentric axis overlap, the middle part that is fixed on solar panel 1 that the upper end of bracing frame 19-1 is firm, link 26 vertically driving shaft 9 is the smooth rotation of axle, solar panel 1 can horizontal connecting axle one 18-1 and horizontal connecting axle two 18-2 be the smooth rotation of axle, and link 26 can to drive solar panel 1 serve as a smooth rotation with vertical driving shaft 9.
As shown in Figure 4, embodiment one of the present utility model is: semicircle internal tooth spur gear one 17-1 and semicircle internal tooth spur gear two 17-2 have been installed outside deceleration box 2, good mutually meshing of small Spur gear three 16-1 and semicircle internal tooth spur gear one 17-1, good mutually meshing of small Spur gear four 16-2 and semicircle internal tooth spur gear two 17-2, semicircle internal tooth spur gear one 17-1 and horizontal connecting axle one 18-1 concentric axis overlaps and semicircle internal tooth spur gear one 17-1 is the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle one 18-1, semicircle internal tooth spur gear one 17-1 is vertical mutually with solar panel 1, semicircle internal tooth spur gear two 17-2 are with horizontal connecting axle two 18-2 concentric axis overlap and semicircle internal tooth spur gear two 17-2 are the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle two 18-2, and semicircle internal tooth spur gear two 17-2 are mutual vertical with solar panel 1.
As shown in Figure 5, embodiment two of the present utility model is: quadrant internal tooth spur gear one 21-1 and quadrant internal tooth spur gear two 21-2 have been installed outside deceleration box 2, good mutually meshing of small Spur gear three 16-1 and quadrant internal tooth spur gear one 21-1, good mutually meshing of small Spur gear four 16-2 and quadrant internal tooth spur gear two 21-2, quadrant internal tooth spur gear one 21-1 and horizontal connecting axle one 18-1 concentric axis overlap and quadrant internal tooth spur gear one 21-1 is the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle one 18-1, quadrant internal tooth spur gear one 21-1 is vertical mutually with solar panel 1, quadrant internal tooth spur gear two 21-2 and horizontal connecting axle two 18-2 concentric axis overlap and quadrant internal tooth spur gear two 21-2 are the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle two 18-2, and quadrant internal tooth spur gear two 21-2 are vertical mutually with solar panel 1.
As shown in Figure 6, embodiment three of the present utility model is: semicircle external tooth spur gear one 23-1 and semicircle external tooth spur gear two 23-2 have been installed outside deceleration box 2, good mutually meshing of small Spur gear three 16-1 and semicircle external tooth spur gear one 23-1, good mutually meshing of small Spur gear four 16-2 and semicircle external tooth spur gear two 23-2, semicircle external tooth spur gear one 23-1 and horizontal connecting axle one 18-1 concentric axis overlaps and semicircle external tooth spur gear one 23-1 is the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle one 18-1, semicircle external tooth spur gear one 23-1 is vertical mutually with solar panel 1, semicircle external tooth spur gear two 23-2 are with horizontal connecting axle two 18-2 concentric axis overlap and semicircle external tooth spur gear two 23-2 are the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle two 18-2, and semicircle external tooth spur gear two 23-2 are mutual vertical with solar panel 1.
As shown in Figure 7, embodiment four of the present utility model is: quadrant external tooth spur gear one 25-1 and quadrant external tooth spur gear two 25-2 have been installed outside deceleration box 2, good mutually meshing of small Spur gear three 16-1 and quadrant external tooth spur gear one 25-1, good mutually meshing of small Spur gear four 16-2 and quadrant external tooth spur gear two 25-2, quadrant external tooth spur gear one 25-1 and horizontal connecting axle one 18-1 concentric axis overlap and quadrant external tooth spur gear one 25-1 is the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle one 18-1, quadrant external tooth spur gear one 25-1 is vertical mutually with solar panel 1, quadrant external tooth spur gear two 25-2 and horizontal connecting axle two 18-2 concentric axis overlap and quadrant external tooth spur gear two 25-2 are the axisymmetric middle part that is fixed on solar panel 1 with horizontal connecting axle two 18-2, and quadrant external tooth spur gear two 25-2 are vertical mutually with solar panel 1.
Motor shaft, small Spur gear 1 and large straight gear 1 by motor 1 when motor 1 rotates drive scroll bar one 7 rotations, so will to drive deceleration box 2 serve as an axle rotation with vertical driving shaft 9 because of vertically driving shaft 9 and turbine 1 maintain static scroll bar 1, and horizontally rotate by the solar panel 1 that deceleration box 2, link 26, horizontal connecting axle one 18-1, horizontal connecting axle two 18-2 and bracing frame 19-1 drive are installed in deceleration box 2 tops.
Motor shaft, small Spur gear 2 11 and large straight gear 2 12 by motor 2 10 when motor 2 10 rotates drive scroll bar 2 13 rotations, and scroll bar 2 13 drives turbines 2 14 and rotates, and turbine 2 14 drives horizontal drive shaft 15 and rotates.
That the rotation of horizontal drive shaft 15 can drive is that be made of semicircle internal tooth spur gear one 17-1 and semicircle internal tooth spur gear two 17-2, that be made of quadrant internal tooth spur gear one 21-1 and quadrant internal tooth spur gear two 21-2, constitute by semicircle external tooth spur gear one 23-1 and semicircle external tooth spur gear two 23-2, by the various depression angle-tracking driving mechanisms that quadrant external tooth spur gear one 25-1 and quadrant external tooth spur gear two 25-2 constitute, finish the depression angle-tracking motion of solar panel.
Claims (7)
1. one by solar panel, deceleration box, bearing, motor one, small Spur gear one, large straight gear one, scroll bar one, turbine one vertical driving shaft, motor two, small Spur gear two, large straight gear two, scroll bar two, turbine two, horizontal drive shaft, link, horizontal connecting axle one, horizontal connecting axle two, bracing frame, the vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp that the control system circuit board depression angle-tracking driving mechanism that with horizontal drive shaft be connected outer with being arranged on deceleration box constitutes, it is characterized in that: in the good deceleration box of intensity, installed by motor one, small Spur gear one, large straight gear one, scroll bar one, the mechanical driving mechanism that turbine one and vertical driving shaft constitute, in deceleration box, also installed by motor two, small Spur gear two, large straight gear two, scroll bar two, the mechanical driving mechanism that turbine two and horizontal drive shaft constitute, outside deceleration box, also be provided with the depression angle-tracking driving mechanism that is connected with horizontal drive shaft
Motor one good being fixed on the deceleration box, vertically driving shaft is installed on the deceleration box by bearing and bearing bracket stand, scroll bar one is installed on the deceleration box by bearing and bearing bracket stand, scroll bar one is parallel to each other with the motor shaft of motor one, scroll bar one is with vertically driving shaft is vertical mutually, on the motor shaft that is fixed on motor one that the motor shaft concentric axis of small Spur gear one and motor one overlaps and small Spur gear one is firm, large straight gear one overlaps and large straight gear one firm being fixed on the scroll bar one with scroll bar one concentric shafts line, turbine one overlaps and turbine one firm being fixed on the vertical driving shaft with vertical driving shaft concentric axis, good mutually meshing of small Spur gear one and large straight gear one, good mutually meshing of scroll bar one and turbine one, vertically deceleration box is stretched out from the upper and lower of deceleration box in the two ends up and down of driving shaft
A bearing has been installed in the deceleration box bottom, and what bearing was firm is fixed on the actionless object, vertically firm being fixed on this bearing in lower end of driving shaft,
A link has been installed on the top of deceleration box, vertically the upper end of driving shaft is by bearing and an end smooth be connected of bearing bracket stand with link, two 1 ends of link are by horizontal connecting axle one and horizontal connecting axle two and smooth being connected in the lower end of bracing frame, the middle part that is fixed on solar panel that the upper end of bracing frame is firm, horizontal connecting axle one and horizontal connecting axle two concentric axis overlap, link vertically driving shaft is the smooth rotation of axle, solar panel can horizontal connecting axle one and horizontal connecting axle two be the smooth rotation of axle, and it serves as the smooth rotation of axle with vertical driving shaft that link can drive solar panel
Motor two good being fixed on the deceleration box, horizontal drive shaft is installed on the deceleration box by bearing and bearing bracket stand, scroll bar two is installed on the deceleration box by bearing and bearing bracket stand, scroll bar two is parallel to each other with the motor shaft of motor two, scroll bar two is vertical mutually with horizontal drive shaft, on the motor shaft that is fixed on motor two that the motor shaft concentric axis of small Spur gear two and motor two overlaps and small Spur gear two is firm, large straight gear two overlaps and large straight gear two firm being fixed on the scroll bar two with scroll bar two concentric axis, turbine two overlaps and turbine two firm being fixed on the horizontal drive shaft with the horizontal drive shaft concentric axis, horizontal drive shaft is stretched out deceleration box from the both sides of deceleration box, the two ends that are fixed on horizontal drive shaft that small Spur gear three and small Spur gear four overlaps with the horizontal drive shaft concentric axis and small Spur gear three and small Spur gear four are firm, good mutually meshing of small Spur gear two and large straight gear two, good mutually meshing of scroll bar two and turbine two.
2. vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp according to claim 1 is characterized in that: vertically driving shaft is vertical mutually with horizontal drive shaft.
3. vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp according to claim 1, it is characterized in that: vertically stretch out and vertically firm being fixed on the bearing of driving shaft in deceleration box the lower end of driving shaft, and what bearing was firm is fixed on the static object in relative ground.
4. vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp according to claim 1, it is characterized in that: described depression angle-tracking driving mechanism is to be made of semicircle internal tooth spur gear one and semicircle internal tooth spur gear two, good mutually meshing of small Spur gear three and semicircle internal tooth spur gear one, good mutually meshing of small Spur gear four and semicircle internal tooth spur gear two, semicircle internal tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and semicircle internal tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, semicircle internal tooth spur gear one is vertical mutually with solar panel, semicircle internal tooth spur gear two overlaps with horizontal connecting axle two concentric axis and semicircle internal tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and semicircle internal tooth spur gear two is vertical mutually with solar panel.
5. vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp according to claim 1, it is characterized in that: described depression angle-tracking driving mechanism is to be made of quadrant internal tooth spur gear one and quadrant internal tooth spur gear two, good mutually meshing of small Spur gear three and quadrant internal tooth spur gear one, good mutually meshing of small Spur gear four and quadrant internal tooth spur gear two, quadrant internal tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and quadrant internal tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, quadrant internal tooth spur gear one is vertical mutually with solar panel, quadrant internal tooth spur gear two overlaps with horizontal connecting axle two concentric axis and quadrant internal tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and quadrant internal tooth spur gear two is vertical mutually with solar panel.
6. vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp according to claim 1, it is characterized in that: described depression angle-tracking driving mechanism is to be made of semicircle external tooth spur gear one and semicircle external tooth spur gear two, good mutually meshing of small Spur gear three and semicircle external tooth spur gear one, good mutually meshing of small Spur gear four and semicircle external tooth spur gear two, semicircle external tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and semicircle external tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, semicircle external tooth spur gear one is vertical mutually with solar panel, semicircle external tooth spur gear two overlaps with horizontal connecting axle two concentric axis and semicircle external tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and semicircle external tooth spur gear two is vertical mutually with solar panel.
7. vertical drive shaft half gear drive three-dimensional automatic tracking lighting solar street lamp according to claim 1, it is characterized in that: described depression angle-tracking driving mechanism is to be made of quadrant external tooth spur gear one and quadrant external tooth spur gear two, good mutually meshing of small Spur gear three and quadrant external tooth spur gear one, good mutually meshing of small Spur gear four and quadrant external tooth spur gear two, quadrant external tooth spur gear one overlaps with horizontal connecting axle one concentric shafts line and quadrant external tooth spur gear one is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle one, quadrant external tooth spur gear one is vertical mutually with solar panel, quadrant external tooth spur gear two overlaps with horizontal connecting axle two concentric axis and quadrant external tooth spur gear two is the axisymmetric middle part that is fixed on solar panel with horizontal connecting axle two, and quadrant external tooth spur gear two is vertical mutually with solar panel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201020147199 CN201652107U (en) | 2010-03-29 | 2010-03-29 | Three-dimensional automatic tracking lighting solar street lamp driven by perpendicular drive shaft semi-gear |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201020147199 CN201652107U (en) | 2010-03-29 | 2010-03-29 | Three-dimensional automatic tracking lighting solar street lamp driven by perpendicular drive shaft semi-gear |
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CN201652107U true CN201652107U (en) | 2010-11-24 |
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CN 201020147199 Expired - Fee Related CN201652107U (en) | 2010-03-29 | 2010-03-29 | Three-dimensional automatic tracking lighting solar street lamp driven by perpendicular drive shaft semi-gear |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104753451A (en) * | 2015-04-26 | 2015-07-01 | 姬爱书 | Electrical control support for solar cell panel |
CN108954144A (en) * | 2017-12-26 | 2018-12-07 | 浙江工商大学 | A kind of intelligent solar floor lamp |
CN112003554A (en) * | 2020-07-20 | 2020-11-27 | 华翔翔能科技股份有限公司 | Support capable of automatically following sunlight |
-
2010
- 2010-03-29 CN CN 201020147199 patent/CN201652107U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104753451A (en) * | 2015-04-26 | 2015-07-01 | 姬爱书 | Electrical control support for solar cell panel |
CN108954144A (en) * | 2017-12-26 | 2018-12-07 | 浙江工商大学 | A kind of intelligent solar floor lamp |
CN112003554A (en) * | 2020-07-20 | 2020-11-27 | 华翔翔能科技股份有限公司 | Support capable of automatically following sunlight |
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