CN201994873U

CN201994873U - High-power coaxial-driving multi-pivot synchronous supporting tracking lighting solar power station

Info

Publication number: CN201994873U
Application number: CN2010201237736U
Authority: CN
Inventors: 张晋
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-03-04
Filing date: 2010-03-04
Publication date: 2011-09-28
Anticipated expiration: 2020-03-04

Abstract

The utility model relates to a high-power coaxial-driving multi-pivot synchronous supporting tracking lighting solar power station. A plurality of solar panels can be driven by two motors to track sunlight synchronously and automatically through a mechanical transmission mechanism which consists of a straight gear, a long and straight rack, a long lead screw, a long nut, a long worm, a worm wheel and the like; and the solar panels are driven so that the group synchronous and automatic tracking of sunlight collection can be realized.

Description

The high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station

Technical field:

The utility model relates to a kind of solar automatic tracking technology, particularly a kind of a plurality of solar panels or a plurality of other solar energy receiving equipments of can be used for are synchronously from the high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station of motion tracking sunlight, this power station can drive a plurality of solar panels or a plurality of other solar energy receiving equipments synchronously from the motion tracking sunlight, finish solar energy from the motion tracking collection.

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 sunlight in the fixed-site mode mostly, because of can not whole day keeping vertical, cause solar energy utilization ratio low with sunlight.Abroad in the photovoltaic matrix of some solar power stations, realized in recent years sunlight from motion tracking, also there are some small-sized throughout the country, medium-sized solar power station puts into operation, their receiving element receives sunlight in the fixed-site mode a bit, some realized sunlight from motion tracking, but the level of these tracking means is followed the tracks of rotation axis perpendicular to ground level, it is parallel with ground level vertically to follow the tracks of rotation axis, level must could realize that solar panel receives the plane and keeps vertical with sunlight by real-time tracking with vertical both direction, make these tracking means complex structures, bulky, the cost height, energy consumption is big, is difficult to apply.

The utility model content:

In order to overcome existing tracking means complicated in mechanical structure, bulky, shortcoming such as cost is high, energy consumption is big, the utility model improves prior art at the deficiency that prior art exists, the three-dimensional tracking is decomposed into track and track depression angle-tracking, and proposed on this basis a kind of simple and reliable for structure, cost is low, follows the tracks of the solar power station that energy consumption is little, wind loading rating is strong.The parallel axes of the axis of the connecting axle of this each solar panel of power station and the earth moves round the sun track, solar panel can be under the driving of control system around the rotational of this connecting axle, thereby make the solar cell board plane keep vertical in real time, realize the track in power station with sunlight.The axis normal of the connecting axle of another connecting axle and each solar panel, what all solar panels in this power station were can be under the driving of control system simultaneously synchronous rotates around this connecting axle, can adjust the axis keeping parallelism of axis and the earth moves round the sun track of the connecting axle of each solar panel, realize the track depression angle-tracking in power station.Because of the earth moves round the sun 1 year, the axis of connecting axle changes very slow with respect to the axis of the earth moves round the sun track, so the adjustment of this direction can be carried out once in one day or several days, can reduce the tracking energy consumption of solar power station greatly.

The technical scheme that its technical problem that solves the utility model adopts is:

The high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station, by first driving shaft, second driving shaft, first long lead screw, second long lead screw, first long nut, second long nut, first spur gear, second spur gear, the 3rd spur gear, the 4th spur gear, the 5th spur gear, the 6th spur gear, first worm gear, second worm gear, the 3rd worm gear, the 4th worm gear, the first long worm screw, the second long worm screw, the 3rd worm screw, the 4th worm screw, first motor, second motor, first link, second link, the 3rd link, the 4th link, first main support rod, second main support rod, the first auxilliary support bar, the second auxilliary support bar, first bracing frame, second bracing frame, first brace summer, second brace summer, the 3rd brace summer, first deceleration box, second deceleration box, the first little deceleration box, the second little deceleration box, long spur rack, N solar panel, connecting axle, control system circuit board and the spur gear that is installed on each solar panel connecting axle constitute, N solar panel is divided into many groups, every group of firm being serially connected of connecting axle that solar panel all overlaps by one group of axis, the connecting axle of every group of solar panel all is installed on the same group of brace summer that is parallel to each other by bearing and bearing bracket stand, what this group brace summer was firm is fixed on one group of bracing frame, bracing frame by one group of connecting axle and one group of main support rod smooth be connected and the axis of this group connecting axle overlaps and vertical mutually with the axis of each group solar panel connecting axle, what main support rod was firm fixes on the ground, each has organized installation all firm on the connecting axle of solar panel spur gear and spur gear and the connecting axle concentric axis overlaps and firm being fixed on this connecting axle, each spur gear all with good being meshed of long spur rack, long spur rack is used for driving the spur gear of respectively organizing on the solar panel and respectively organizes solar panel by each spur gear drive and organize the smooth rotation of axis of the connecting axle of solar panel around each

Second deceleration box and first link have been installed on the 3rd brace summer in above-mentioned brace summer, second link, the 3rd link and the 4th link, two orthogonal first driving shafts and second driving shaft have been installed in second deceleration box, one end of first driving shaft stretches out in second deceleration box and is connected with the 5th spur gear, the connecting axle concentric axis of one group of solar panel in the 6th spur gear and the solar panel overlaps and firm being fixed on this connecting axle, the 5th spur gear and good being meshed of the 6th spur gear, on the end that is fixed on the second long worm screw that its other end is firm on the end that is fixed on the first long worm screw that stretch out in second deceleration box at the two ends of second driving shaft and the one end is firm and the first long worm screw and the second long worm screw and the second driving shaft concentric axis overlap, second driving shaft is used for driving the first long worm screw and the second long worm screw while, synchronously, rotate in the same way, the other end of the first long worm screw and the second long worm screw is respectively by first link, second link, the 3rd link and the 4th link lower end circular hole and first link, second link, the 3rd link and smooth being connected of the 4th link, first link, second link, what the upper end of the 3rd link and four links was firm is fixed on the 3rd brace summer

The horizontal deceleration system that is made of first motor, first spur gear, second spur gear, the 3rd worm screw, first worm gear also has been installed in second deceleration box, the 3rd worm screw and good being meshed of first worm gear, first worm gear and the first driving shaft concentric axis overlap and firm being fixed on first driving shaft

The angle of depression deceleration system that is made of second motor, the 3rd spur gear, the 4th spur gear, the 4th worm screw, second worm gear also has been installed in second deceleration box, the 4th worm screw and good being meshed of second worm gear, second worm gear and the second driving shaft concentric axis overlap and firm being fixed on second driving shaft

The deceleration system that is made of the first little deceleration box, the 3rd worm gear, first long lead screw, first long nut and the first auxilliary support bar has been installed below the first long worm screw, the 3rd worm gear is installed in the first little deceleration box, the first long worm screw and good being meshed of the 3rd worm gear

The deceleration system that is made of the second little deceleration box, the 4th worm gear, second long lead screw, second long nut and the second auxilliary support bar also has been installed below the second long worm screw, the 4th worm gear is installed in the second little deceleration box, the second long worm screw and good being meshed of the 4th worm gear.

When departing from vertical seat with the upper surface of each group solar panel, sunray rotates by the control system drive motors, motor is by four spur gears, worm screw, worm gear, long spur rack and respectively organize spur gear on the connecting axle and drive and respectively to organize solar panel simultaneously synchronously in the same way around the rotational of each group solar panel connecting axle, make that respectively organizing solar panel returns on the vertical seat with sunray simultaneously, realizes the track in power station.

When the parallel seat of axis runout of the axis of the connecting axle of each group solar panel and the earth moves round the sun track, rotate by the control system drive motors, motor is by two spur gears, worm and worm wheel drive two long worm screws and rotate, article two, long worm screw drives two worm gears and drives by two long lead screws and two long nuts respectively organizes solar panel simultaneously synchronously in the same way around the rotational of the connecting axle that is connected bracing frame and main support rod, make the axis of the connecting axle of respectively organizing solar panel return to simultaneously and the parallel axes seat of the earth moves round the sun track on.

When motor did not power up rotation, because of the one-way and the irreversibility of worm screw, worm gear and long lead screw transmission, 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: one-way and irreversibility by worm screw, worm gear and long lead screw transmission, can realize good wind resistance, and the tracking energy consumption is little, cost is low, and is simple and reliable for structure.

Description of drawings

Be that embodiment further specifies the utility model in conjunction with the accompanying drawings with ten solar panels below.

Fig. 1 is a whole schematic diagram of the present utility model.

Fig. 2 is an A-A cutaway view of the present utility model.

Fig. 3 is a B-B cutaway view of the present utility model.

Fig. 4 is a C-C cutaway view of the present utility model.

Fig. 5 is the amplification view of deceleration box of the present utility model.

Fig. 6 is the cutaway view of little deceleration box of the present utility model.

Embodiment

In Fig. 1 and Fig. 2, solar panel is divided into five groups, the first solar panel 1-1-1 and the second solar panel 1-1-2 are first group, the 3rd solar panel 1-2-1 and the 4th solar panel 1-2-2 are second group, the 5th solar panel 1-3-1 and the 6th solar panel 1-3-2 are the 3rd group, the 7th solar panel 1-4-1 and the 8th solar panel 1-4-2 are the 4th group, the 9th solar panel 1-5-1 and the tenth solar panel 1-5-2 are the 5th group, and the upper surface of every group of solar panel is parallel to each other.Connecting axle also is divided into five groups, among first time connecting axle 9-1-1, first on the connecting axle 9-1-2 and first connecting axle 9-1-3 be first group, among second time connecting axle 9-2-1, second on the connecting axle 9-2-2 and second connecting axle 9-2-3 be second group, among the 3rd time connecting axle 9-3-1, the 3rd on the connecting axle 9-3-2 and the 3rd connecting axle 9-3-3 be the 3rd group, among the 4th time connecting axle 9-4-1, the 4th on the connecting axle 9-4-2 and the 4th connecting axle 9-4-3 be the 4th group, among the 5th time connecting axle 9-5-1, the 5th on the connecting axle 9-5-2 and the 5th connecting axle 9-5-3 be the 5th group.The first brace summer 4-2-1, the second brace summer 4-2-2 and the 3rd brace summer 4-2-3 are by firm being fixed on the first bracing frame 4-1-1 and the second bracing frame 4-1-2, three brace summers are parallel to each other, the first bracing frame 4-1-1 is connected with the upper end of the first main support rod 3-1 by the first horizontal connecting axle 5-1-1, the second bracing frame 4-1-2 is connected with the upper end of the second main support rod 3-2 by the second horizontal connecting axle 5-1-2, the first main support rod 3-1 and second firm the fixing on the ground in main support rod 3-2 lower end, the first horizontal connecting axle 5-1-1 and the second horizontal connecting axle 5-1-2 concentric axis overlap, and two bracing frames can drive three brace summers around the first horizontal connecting axle 5-1-1 and the smooth rotation of the second horizontal connecting axle 5-1-2.Allow i get one, two, three, four, five respectively.I group solar panel is by firm being serially connected of i group connecting axle, three connecting axles of i group with one heart and the axis of three connecting axles overlap, the weight of i group solar panel is evenly distributed on the axis both sides of i group connecting axle, the last connecting axle of i group is installed on the 3rd brace summer 4-2-3 by bearing and bearing bracket stand, the middle connecting axle of i group is installed on the second brace summer 4-2-2 by bearing and bearing bracket stand, the following connecting axle of i group is installed on the first brace summer 4-2-1 by bearing and bearing bracket stand, and i group solar panel can be around the smooth rotation of axis of i group connecting axle.Each axis of organizing connecting axle be parallel to each other and with the parallel axes of the earth moves round the sun track.

In Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, what the second deceleration box 7-2 was firm is fixed on the 3rd brace summer 4-2-3, control circuit board (18) is installed in the second deceleration box 7-2, and the first driving shaft 17-1 and the second driving shaft 17-2 are vertical mutually and be installed on the second deceleration box 7-2 by bearing and bearing bracket stand.What the first motor 12-1 was good is fixed on the second deceleration box 7-2, the motor shaft 13-1 concentric axis of the first spur gear 14-1 and the first motor 12-1 overlaps and firm being fixed on the motor shaft 13-1, the second spur gear 14-2 and the 3rd worm screw 15-1 concentric axis overlap and firm being fixed on the 3rd worm screw 15-1, the 3rd worm screw 15-1 is installed on the second deceleration box 7-2 by bearing and bearing bracket stand, the first spur gear 14-1 and good being meshed of the second spur gear 14-2, the 3rd worm screw 15-1 and good being meshed of the first worm gear 16-1, the first worm gear 16-1 and the first driving shaft 17-1 concentric axis overlap and firm being fixed on the first driving shaft 17-1, the end of the first driving shaft 17-1 stretches out in the second deceleration box 7-2 and is connected with the 5th spur gear 19, and the 5th spur gear 19 and the first driving shaft 17-1 concentric axis overlap and firm being fixed on the first driving shaft 17-1.The end of the 7th spur gear 10-1 is firm is fixed on first on the connecting axle 9-1-3, the end of the 8th spur gear 10-2 is firm is fixed on second on the connecting axle 9-2-3, the end of the 9th spur gear 10-3 is firm is fixed on the 3rd on the connecting axle 9-3-3, connecting axle 9-3-3 concentric axis overlaps and firm being fixed on the 3rd on the connecting axle 9-3-3 on the 6th spur gear 20 and the 3rd, the

5th spur gear

19 and 20 good being meshed of the 6th spur gear, the end of the tenth spur gear 10-4 is firm is fixed on the 4th on the connecting axle 9-4-3, and the end of the 11 spur gear 10-5 is firm is fixed on the 5th on the connecting axle 9-5-3.Long spur rack 11 and the 7th spur gear 10-1, the 8th spur gear 10-2, the 9th spur gear 10-3, the tenth spur gear 10-4 and good being meshed of the 11 spur gear 10-5.

When the first motor 12-1 rotates, by motor shaft 13-1, the first spur gear 14-1, the second spur gear 14-2, the 3rd worm screw 15-1, the first worm gear 16-1, the first driving shaft 17-1, the 5th spur gear 19 drives the 6th spur gear 20 and rotates, the 6th spur gear 20 drives long spur rack 11 and passes through long spur rack 11 and the 7th spur gear 10-1 by the 9th spur gear 10-3, the 8th spur gear 10-2, the 9th spur gear 10-3, the tenth spur gear 10-4 and the 11 spur gear 10-5 drive and respectively organize the axis while of solar panel around its connecting axle, synchronously, follow sunlight in the same way and rotate, realize the track in power station.

At Fig. 1, Fig. 2, Fig. 3, Fig. 4, among Fig. 5 and Fig. 6, what the second motor 12-2 was good is fixed on the second deceleration box 7-2, the motor shaft 13-2 concentric axis of the 3rd spur gear 14-3 and the second motor 12-2 overlaps and firm being fixed on the motor shaft 13-2, the 4th spur gear 14-4 and the 4th worm screw 15-2 concentric axis overlap and firm being fixed on the 4th worm screw 15-2, the 4th worm screw 15-2 is installed on the second deceleration box 7-2 by bearing and bearing bracket stand, the 3rd spur gear 14-3 and good being meshed of the 4th spur gear 14-4, the 4th worm screw 15-2 and good being meshed of the second worm gear 16-2, the second worm gear 16-2 and the second driving shaft 17-2 concentric axis overlap and firm being fixed on the second driving shaft 17-2, the second driving shaft 17-2 two ends are stretched out in the second deceleration box 7-2 and are connected with the end of the second long worm screw 5-2-2 with two first long worm screw 5-2-1 respectively, the first long worm screw 5-2-1 and the second long worm screw 5-2-2 and the second driving shaft 17-2 concentric axis overlap and the firm respectively two ends that are fixed on the second driving shaft 17-2, the circular hole and first that the first supporting bracket 6-1-1 opens by its lower end is grown smooth being connected of the other end of worm screw 5-2-1, the circular hole and first that the second link 6-1-2 opens by its lower end is grown smooth being connected in middle part of worm screw 5-2-1, the circular hole and second that the 3rd link 6-1-3 opens by its lower end is grown smooth being connected in middle part of worm screw 5-2-2, the circular hole and second that the second supporting bracket 6-1-4 opens by its lower end is grown smooth being connected of the other end of worm screw 5-2-2, the first supporting bracket 6-1-1, the second link 6-1-2, the upper end of the 3rd link 6-1-3 and the second supporting bracket 6-1-4 is fixed on the 3rd brace summer 4-2-3, the first supporting bracket 6-1-1, the second link 6-1-2, the 3rd link 6-1-3 and the second supporting bracket 6-1-4 circular hole that open the lower end and the first long worm screw 5-2-1 and the second long worm screw 5-2-2 concentric axis overlap

The middle part and good being meshed of the 3rd worm gear 16-3 of the first long worm screw 5-2-1, the 3rd worm gear 16-3 and the first long lead screw 2-1-1 concentric axis overlap and firm being fixed on the first long lead screw 2-1-1, the first long lead screw 2-1-1 is installed on one the first little deceleration box 7-3-1 by bearing and bearing bracket stand, the first little deceleration box 7-3-1 is by the first long worm screw 5-2-1 and smooth being connected of the second link 6-1-2 that is installed in the first long worm screw 5-2-1 middle part, the first little deceleration box 7-3-1 can the first long worm screw 5-2-1 be the smooth rotation of axle, the end of the first long lead screw 2-1-1 stretches out in the first little deceleration box 7-3-1 and the smooth screw-in first long nut 2-2-1 from the upper end of the first long nut 2-2-1, the lower end of the first long nut 2-2-1 is connected with the upper end of first support bar 3-3 by the 3rd horizontal connecting axle 5-3-1

The middle part and good being meshed of the 4th worm gear 16-4 of the second long worm screw 5-2-2, the 4th worm gear 16-4 and the second long lead screw 2-1-2 concentric axis overlap and firm being fixed on the second long lead screw 2-1-2, the second long lead screw 2-1-2 is installed on one the second little deceleration box 7-3-2 by bearing and bearing bracket stand, the second little deceleration box 7-3-2 is by the second long worm screw 5-2-2 and smooth being connected of the 3rd link 6-1-3 that is installed in the second long worm screw 5-2-2 middle part, the second little deceleration box 7-3-2 can the second long worm screw 5-2-2 be the smooth rotation of axle, the end of the second long lead screw 2-1-2 stretches out in the second little deceleration box 7-3-2 and the smooth screw-in second long nut 2-2-2 from the upper end of the second long nut 2-2-2, the lower end of the second long nut 2-2-2 is connected with the upper end of the second auxilliary support bar 3-4 by the 4th horizontal connecting axle 5-3-2, firm the fixing on the ground in lower end of the first auxilliary support bar 3-3 and the second auxilliary support bar 3-4.

When the second motor 12-2 rotates, by motor shaft 13-2, the 3rd spur gear 14-3, the 4th spur gear 14-4, the 4th worm screw 15-2, the second worm gear 16-2, the second driving shaft 17-2 drives the first long worm screw 5-2-1 and the second long worm screw 5-2-2 rotates, the first long worm screw 5-2-1 and the second long worm screw 5-2-2 drive the 3rd worm gear 16-3 and the 4th worm gear 16-4 rotation and pass through the first long lead screw 2-1-1, the second long lead screw 2-1-2, the first long nut 2-2-1 and the second long nut 2-2-2 drive and respectively organize solar panel serves as that axle vertically rotates with the first horizontal connecting axle 5-1-1 and the second horizontal connecting axle 5-1-2, can adjust the axis keeping parallelism of the axis of respectively organizing the solar energy connecting axle and the earth moves round the sun track.

Control system circuit board 18 is installed in the second deceleration box 7-2, the angle of depression that control system circuit board 18 can be monitored the seat of the sun and sun orbit in real time changes, and drives the first motor 12-1 and the second motor 12-2 finishes the track and the track depression angle-tracking in power station.

Claims

1. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station, by first driving shaft (17-1), second driving shaft (17-2), first long lead screw (2-1-1), second long lead screw (2-1-2), first long nut (2-2-1), second long nut (2-2-2), first spur gear (14-1), second spur gear (14-2), the 3rd spur gear (14-3), the 4th spur gear (14-4), the 5th spur gear (19), the 6th spur gear (20), first worm gear (16-1), second worm gear (16-2), the 3rd worm gear (16-3), the 4th worm gear (16-4), the first long worm screw (5-2-1), the second long worm screw (5-2-2), the 3rd long worm screw (15-1), the 4th long worm screw (15-2), first motor (12-1), second motor (12-2), first link (6-1-1), second link (6-1-2), the 3rd link (6-1-3), the 4th link (6-1-4), first main support rod (3-1), second main support rod (3-2), the first auxilliary support bar (3-3), the second auxilliary support bar (3-4), first bracing frame (4-1-1), second bracing frame (4-1-2), first brace summer (4-2-1), second brace summer (4-2-2), the 3rd brace summer (4-2-3), first deceleration box (7-1), second deceleration box (7-2), the first little deceleration box (7-3-1), the second little deceleration box (7-3-2), long spur rack (11), N solar panel, connecting axle, control system circuit board (18) and the spur gear that is installed on each solar panel connecting axle constitute, N solar panel is divided into many groups, it is characterized in that: every group of firm being serially connected of connecting axle that solar panel all overlaps by one group of axis, the connecting axle of every group of solar panel all is installed on the same group of brace summer that is parallel to each other by bearing and bearing bracket stand, what this group brace summer was firm is fixed on one group of bracing frame, bracing frame by one group of connecting axle and one group of main support rod smooth be connected and the axis of this group connecting axle overlaps and vertical mutually with the axis of each group solar panel connecting axle, what main support rod was firm fixes on the ground, each has organized installation all firm on the connecting axle of solar panel spur gear and spur gear and the connecting axle concentric axis overlaps and firm being fixed on this connecting axle, each spur gear all with good being meshed of long spur rack, long spur rack is used for driving the spur gear of respectively organizing on the solar panel and respectively organizes solar panel by each spur gear drive and organize the smooth rotation of axis of the connecting axle of solar panel around each

Second deceleration box (7-2) and first link (6-1-1) have been installed on the 3rd brace summer (4-2-3) in above-mentioned brace summer, second link (6-1-2), the 3rd link (6-1-3) and the 4th link (6-1-4), two orthogonal first driving shafts (17-1) and second driving shaft (17-2) have been installed in second deceleration box (7-2), one end of first driving shaft (17-1) stretches out in second deceleration box (7-2) and is connected with the 5th spur gear (19), the connecting axle concentric axis of one group of solar panel in the 6th spur gear (20) and the solar panel overlaps and firm being fixed on this connecting axle, the 5th spur gear (19) and good being meshed of the 6th spur gear (20), on the end that is fixed on the second long worm screw (5-2-2) that its other end is firm on the end that is fixed on the first long worm screw (5-2-1) that stretch out in second deceleration box (7-2) at the two ends of second driving shaft (17-2) and the one end is firm and the first long worm screw (5-2-1) and the second long worm screw (5-2-2) and second driving shaft (17-2) concentric axis overlap, second driving shaft (17-2) is used for driving the first long worm screw (5-2-1) and second and grows worm screw (5-2-2) simultaneously, synchronously, rotate in the same way, the other end of the first long worm screw (5-2-1) and the second long worm screw (5-2-2) is respectively by first link (6-1-1), second link (6-1-2), the 3rd link (6-1-3) and the 4th link (6-1-4) lower end circular hole and first link (6-1-1), second link (6-1-2), the 3rd link (6-1-3) and smooth being connected of the 4th link (6-1-4), first link (6-1-1), second link (6-1-2), what the upper end of the 3rd link (6-1-3) and four links (6-1-4) was firm is fixed on the 3rd brace summer (4-2-3)

The deceleration system that is made of first motor (12-1), first spur gear (14-1), second spur gear (14-2), the 3rd long worm screw (15-1), first worm gear (16-1) also has been installed in second deceleration box (7-2), the 3rd long worm screw (15-1) and good being meshed of first worm gear (16-1), first worm gear (16-1) overlaps and firm being fixed on first driving shaft (17-1) with first driving shaft (17-1) concentric axis

The deceleration system that is made of second motor (12-2), the 3rd spur gear (14-3), the 4th spur gear (14-4), the 4th long worm screw (15-2), second worm gear (16-2) also has been installed in second deceleration box (7-2), the 4th long worm screw (15-2) and good being meshed of second worm gear (16-2), second worm gear (16-2) overlaps and firm being fixed on second driving shaft (17-2) with second driving shaft (17-2) concentric axis

The deceleration system that is made of the first little deceleration box (7-3-1), the 3rd worm gear (16-3), first long lead screw (2-1-1), first long nut (2-2-1) and the first auxilliary support bar (3-3) has been installed below the first long worm screw (5-2-1), the 3rd worm gear (16-3) is installed in the first little deceleration box (7-3-1), the first long worm screw (5-2-1) and good being meshed of the 3rd worm gear (16-3)

The deceleration system that is made of the second little deceleration box (7-3-2), the 4th worm gear (16-4), second long lead screw (2-1-2), second long nut (2-2-2) and the second auxilliary support bar (3-4) also has been installed below the second long worm screw (5-2-2), the 4th worm gear (16-4) is installed in the second little deceleration box (7-3-2), the second long worm screw (5-2-2) and good being meshed of the 4th worm gear (16-4).

2. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1 is characterized in that: each axis of organizing the connecting axle of solar panel is parallel to each other and the upper surface of respectively organizing solar panel is parallel to each other and weight is evenly distributed on the axis both sides of its connecting axle.

3. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1, it is characterized in that: motor shaft (13-1) concentric axis of first spur gear (14-1) and first motor (12-1) overlap and the firm motor shaft that is fixed on first motor (12-1) (13-1) on, second spur gear (14-2) overlaps with the 3rd long worm screw (15-1) concentric axis and firm being fixed on the 3rd long worm screw (15-1), first spur gear (14-1) and good being meshed of second spur gear (14-2), the 3rd long worm screw (15-1) and good being meshed of first worm gear (16-1), first worm gear (16-1) overlaps and firm being fixed on first driving shaft (17-1) with first driving shaft (17-1) concentric axis.

4. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1, it is characterized in that: motor shaft (13-2) concentric axis of the 3rd spur gear (14-3) and second motor (12-2) overlap and the firm motor shaft that is fixed on second motor (12-2) (13-2) on, the 4th spur gear (14-4) overlaps with the 4th long worm screw (15-2) concentric axis and firm being fixed on the 4th long worm screw (15-2), the 3rd spur gear (14-3) and good being meshed of the 4th spur gear (14-4), the 4th long worm screw (15-2) and good being meshed of second worm gear (16-2), second worm gear (16-2) overlaps and firm being fixed on second driving shaft (17-2) with second driving shaft (17-2) concentric axis.

5. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1, it is characterized in that: an end of vertical mutually and first driving shaft (17-1) of first driving shaft of installing in second deceleration box (7-2) (17-1) and second driving shaft (17-2) stretches out in second deceleration box (7-2) and is connected with the 5th spur gear (19) and the 5th spur gear (19) and first driving shaft (17-1) concentric axis overlap and firm being fixed on first driving shaft (17-1), the connecting axle concentric axis of one group of solar panel in the 6th spur gear (20) and the solar panel overlap and firm be fixed on this connecting axle on, the 5th spur gear (19) and good being meshed of the 6th spur gear (20).

6. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1 is characterized in that: the two ends of second driving shaft (17-2) are stretched out in second deceleration box (7-2) and are connected with the end of two the first long worm screws (5-2-1) and the second long worm screw (5-2-2) respectively and the first long worm screw (5-2-1) and the second long worm screw (5-2-2) and second driving shaft (17-2) concentric axis overlap and the firm respectively two ends that are fixed on second driving shaft (17-2).

7. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1, it is characterized in that: the first long worm screw (5-2-1) and good being meshed of the 3rd worm gear (16-3), the 3rd worm gear (16-3) overlaps and the firm middle and upper part that is fixed on first long lead screw (2-1-1) with first long lead screw (2-1-1) concentric axis, the middle and upper part of first long lead screw (2-1-1) is installed in the first little deceleration box (7-3-1) by bearing and bearing bracket stand, the first little deceleration box (7-3-1) is by the first long worm screw (5-2-1) and smooth being connected of first link (6-1-1), the first little deceleration box (7-3-1) can the first long worm screw (5-2-1) be the smooth rotation of axle, the lower end of first long lead screw (2-1-1) stretch out in the first little deceleration box (7-3-1) and from the upper end of first long nut (2-2-1) smooth screw-in first long nut (2-2-1), the lower end of first long nut (2-2-1) is by smooth being connected in upper end of first connecting axle (5-3-1) and the first auxilliary support bar (3-3).

8. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1, it is characterized in that: the second long worm screw (5-2-2) and good being meshed of the 4th worm gear (16-4), the 4th worm gear (16-4) overlaps and the firm middle and upper part that is fixed on second long lead screw (2-1-2) with second long lead screw (2-1-2) concentric axis, the middle and upper part of second long lead screw (2-1-2) is installed in the second little deceleration box (7-3-2) by bearing and bearing bracket stand, the second little deceleration box (7-3-2) is by the second long worm screw (5-2-2) and smooth being connected of second link (6-1-2), the second little deceleration box (7-3-2) can the second long worm screw (5-2-2) be the smooth rotation of axle, stretch out in the second little deceleration box (7-3-2) and smooth screw-in second long nut (2-2-2) from the upper end of second long nut (2-2-2) lower end of second long lead screw (2-1-2), the lower end of second long nut (2-2-2) is by upper end smooth be connected of second connecting axle (5-3-2) with the second auxilliary support bar (3-4), the first auxilliary support bar (3-3) and second auxilliary firm being fixed on the connecting plate (3-5) of support bar (3-4), firm being fixed on the wall face of connecting plate (3-5).

9. high-power coaxial-driving multi-pivot synchronous supporting tracking collection solar power station according to claim 1, it is characterized in that: every size correspondent equal of every size correspondent equal of the 3rd worm gear (16-3) and the 4th worm gear (16-4) and the first long worm screw (5-2-1) and the second long worm screw (5-2-2), every size correspondent equal of every size correspondent equal of first long lead screw (2-1-1) and second long lead screw (2-1-2) and first long nut (2-2-1) and second long nut (2-2-2) is installed in the every size correspondent equal of spur gear on connecting axle of each group.