CN203552066U - Rotary single-axis solar energy tracking structure - Google Patents
Rotary single-axis solar energy tracking structure Download PDFInfo
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- CN203552066U CN203552066U CN201320668134.1U CN201320668134U CN203552066U CN 203552066 U CN203552066 U CN 203552066U CN 201320668134 U CN201320668134 U CN 201320668134U CN 203552066 U CN203552066 U CN 203552066U
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Abstract
The utility model relates to a solar energy tracking system and particularly relates to a rotary single-axis solar energy tracking system. The rotary single-axis solar energy tracking structure comprises a plurality of solar photovoltaic module units; each solar photovoltaic module unit comprises a vertical column; a rotary shaft is fixed on the vertical column; a photovoltaic module is fixed on the rotary shaft; one end of each rotary shaft is fixed with a rotation arm; the rotation arms are connected via a connection cable; the connection cable is fixed on a driving device; and the driving device drives the rotation arms to rotate via the connection cable. According to the rotary single-axis solar energy tracking structure, the structure is simple, a plurality of rotary shafts are synchronously driven to synchronously follow positions of the sun, only torque is applied to rotation of the driving mechanism, a large-scale individual base does not need to be built, the conversion efficiency of sunlight is improved, and the technical problems that the solar energy tracking system in the prior art is complicated in the structure, the plurality of rotary shafts can not rotate synchronously and the conversion efficiency of sunlight is not high can be solved.
Description
Technical field
The utility model relates to a kind of tracker of sun power, relates in particular to a kind of sun power Clothoid type single shaft tracking structure.
Background technology
Tapping a new source of energy with renewable and clean energy resource is the common issue that the whole world faces.In new forms of energy, photovoltaic generation attracts tremendous attention.But due to too high cost, also fail at present fully to come into the market.Photovoltaic generation market outlook are wide, but sun power utilization ratio is low, is faced with construction cost high, the problem that rate of return on investment is low.The assembly installation form of photovoltaic generation mainly contains the modes such as fixed angle formula, uniaxiality tracking, double-axis tracking.
It is that assembly fixes on the ground with certain inclination angle that fixed angle formula is installed, and whole power generation process assembly is in static state, and this mounting means is simple, and cost is low.But the sun is in dynamic movement process, and in one day, sunshine and solar panel relative position are all changing constantly, and light vertical time relative to cell panel is very short.Research shows, solar panel generating capacity is directly proportional to receiving vertical light intensity, has more than 35% energy every day by invisible slatterning.In addition, in order to prevent that the inclement weathers such as strong wind, heavy snow from may damage the support of solar panel, that generally the safety coefficient of basis and support is designed is very high.
In order to overcome the problems referred to above, improve the utilization ratio of sun power, increase generated energy, reduce the operation cost of solar electrical energy generation, control the photovoltaic generation mode of battery panel components rotation, i.e. single shaft and dual-axis tracking system.Wherein single shaft refers to that battery panel components only has a rotary freedom, (east-west direction) upper sun of following the tracks of at position angle, and dual-axis tracking system refers to the mode of solar motion of following the tracks of in solar azimuth and elevation angle simultaneously.But existing tracker, solar photovoltaic assembly supporting structure is complicated mostly, cost is expensive, and installs complicated time-consuming, low to irregular landform adaptability.
Disclosed in present patent document have, Chinese patent: " linkage type horizontal single-axis tracking device (CN102314180A) " it comprises crossbeam, some vertical thick sticks, the regulating device that some cant beams and control crossbeam rotate, crossbeam is located at Li Gang top by support rotary mechanism, cant beam is located on crossbeam by cant beam installing mechanism, regulating device one end is fixed on the other end on holder and is flexibly connected with crossbeam, support rotary mechanism comprises crossbeam anchor ear, in crossbeam anchor ear, be provided with bearing, crossbeam is through this bearing, crossbeam and bearing are circumferentially fixing, cant beam installing mechanism comprises cant beam anchor ear, cant beam anchor ear is set on crossbeam, cant beam is fixed on cant beam anchor ear.This patent is only the equipment of following the tracks of for a plurality of solar photovoltaic assemblies that are positioned on same crossbeam, for the synchronous interaction of a plurality of crossbeams, does not provide enlightenment.
Summary of the invention
It is a kind of simple in structure that the utility model provides, can synchronously drive many rotating shafts synchronously to follow the position of the sun, a rotary motion mechanism torque suspension, does not need to build large-scale isolated footing, has improved a kind of sun power Clothoid type single shaft tracking structure of the conversion efficiency of sunshine; Solved the solar tracking system complex structure existing in prior art, many rotating shaft rotations simultaneously, the technical matters that sunshine conversion efficiency is not high.
The utility model also provides a kind of simultaneously and can be arranged in height fluctuating and irregularity boundary landform, and the photovoltaic module of respectively arranging that allows cable wire to connect has and departs from distance, is not subject to respectively to arrange a kind of sun power Clothoid type single shaft tracking structure that interval error affects; Solved the technical matters that the solar tracking system existing in prior art is subject to landform and restriction is installed.
Above-mentioned technical matters of the present utility model solves by following technical proposals: a kind of sun power Clothoid type single shaft tracking structure, comprise several solar photovoltaic assembly unit, solar photovoltaic assembly unit comprises column, on column, be fixed with rotating shaft, in rotating shaft, be fixed with photovoltaic module, in one end of each rotating shaft, be all fixed with a swivel arm, each swivel arm connects by connecting strand, connecting strand is fixed on drive unit, and drive unit drives swivel arm to rotate by connecting strand.All there is a swivel arm each solar photovoltaic assembly unit, by connecting strand, each swivel arm is connected, then the rotation of drive unit drives swivel arm to rotate, because swivel arm is fixed in rotating shaft, thereby drive rotating shaft rotation, fixed light photovoltaic assembly in rotating shaft, respectively organizes photovoltaic module and synchronously follows the sun thereby drive, and improves the conversion efficiency of sun power.Connecting strand can be the structures such as cable wire, pull bar or chain.Distance between two row's rotating shafts can be adjusted installation as required, by connecting strand, adjusts the distance between rotating shaft, meets needs are installed.
As preferably, described swivel arm comprises swivel arm and lower swivel arm, on upper swivel arm and lower swivel arm, is all connected with connecting strand, and each connecting strand is connected to form annular.The annular that connecting strand forms is by connecting strand and is positioned at closed formation of two swivel arms at two ends.Laterally zygomorphic cloth in rotating shaft is set up swivel arm and lower swivel arm, the connecting strand being fixed on upper and lower swivel arm is stressed evenly, make connecting strand be in turn connected into annular, can make a device for revolving and driving torque suspension, thereby do not need to build large-scale isolated footing, make system architecture simple, cost is low.
As more preferably, the connecting strand between adjacent two upper swivel arms is parallel to each other with the connecting strand between adjacent two lower swivel arms, and during swivel arm rotation, the distance between two connecting strands that are parallel to each other from large to small or change from small to big.Between adjacent upper swivel arm, be fixedly connected with rope, between adjacent lower swivel arm, be fixedly connected with rope, on upper and lower swivel arm, fixing connecting strand is parallel to each other, be not easy to produce dead angle, stressed even, can allow the photovoltaic module in rotating shaft turn to identical angle, improve the conversion efficiency of sun power.
As preferably, each described rotating shaft is parallel to each other, swivel arm is vertical with rotating shaft, each swivel arm is also parallel, the quantity of the solar photovoltaic assembly unit of drive unit both sides is identical, drive unit is connected by connecting strand respectively with two swivel arms of drive unit both sides, between all the other two adjacent swivel arms, is provided with a connecting strand.Drive unit is positioned at the centre of whole system, and during work, both sides are stressed identical or approaching, and the power of both sides is cancelled out each other, and a torque suspension effect, so need not set up large-scale isolated footing for each drive unit.Mounting means is simple in structure in this wise, has both saved great deal of steel, and the requirement that greatly reduces again construction and install, makes setting up with dismounting of photovoltaic module simpler and easy.Between adjacent two swivel arms or swivel arm and drive unit, be to be all connected by connecting strand, centered by rotating shaft, form two of being parallel to each other up and down and connect straps.Connect between strap and separate by the swivel arm being parallel to each other, form the state of similar grid, the good and Stability Analysis of Structures of tetragonal grid linkage.
As preferably, described drive unit comprises rolling disc, on rolling disc, be fixed with swivel plate, swivel plate is positioned at the center of rolling disc, the two ends up and down of swivel plate are equipped with clip, rolling disc clockwise or the scope that is rotated counterclockwise be 0 ° ~ 60 °, below rolling disc, be provided with bull stick, bull stick is connected with motor, and rolling disc and bull stick form worm gear structure.Rolling disc is the rotation of positive and negative both direction appropriateness rather than 360 ° of rotations, according to the irradiating angle of sunshine, and the anglec of rotation of drive solar photovoltaic assembly.The swivel plate being fixed thereon that rotarily drives of rolling disc rotates, and the two ends of swivel plate connect connecting strand by clip, and connecting strand drives swivel arm rotation, thereby drives photovoltaic module rotation to follow running track from sun.
As preferably, described rotating shaft is square shaft, between described rotating shaft and column, by square bearing, be connected, described square bearing is split-type structural, described bearing body is to consist of two bearing bodies that are arranged symmetrically with, and bearing body is arc, and the external peripheral surface of bearing body is provided with circular arc workplace, the inner circumferential surface of bearing body is provided with locating slot, and two locating slot amalgamations form the through hole of bearing body; Described bearing seat is to consist of bearing (ball) cover and bearing base, is equipped with the surface of contact coordinating with the workplace of bearing body on bearing (ball) cover and bearing base, and bearing (ball) cover is connected by syndeton with bearing base.As more preferably, it is syndeton that bearing divides the both sides of seat, described syndeton is the connector of surface of contact both sides, bearing (ball) cover is equipped with engaging tooth with the surface that the connector of bearing base contacts, on connector, offer bolt hole, the spiro keyhole position of bearing (ball) cover and bearing base is on same axis, and in bolt hole, cross-under has bolt, the bolt hole of bolt-through bearing (ball) cover and bearing base.Described connector is the rectangular parallelepiped of hollow, and one of them surface of connector is smooth plane, and another of connector and smooth parallel plane surface are the flank of tooth, are provided with engaging tooth on the flank of tooth.First bearing (ball) cover and bearing base are utilized syndeton to be connected then fixing, because two bearing bodies are provided with groove, so can easily two semicircle shape bearing body make-ups be inserted to bearing seat, and then two bearing bodies are separated into workplace contact with the surface of contact on bearing base with bearing (ball) cover, complete assembling.Due to split type structure, installation effectiveness is high, changes also very convenient.If bearing has damage, bearing seat and bearing (ball) cover can be taken apart, directly take out the bearing of damage and change, fast and easy.
As preferably, described connecting strand and the angle between ground level are 0 ° ~ 30 °.According to the variation of photovoltaic module installation site, possible physical features has height and rises and falls, therefore two adjacent rotating shafts are not located in the same horizontal plane, thus, two adjacent groups photovoltaic module, wherein one group of physical features of installing is higher, so its rotating shaft is just higher, the swivel arm being fixed in rotating shaft is also just higher, and the connecting strand and the terrain slope that between adjacent two swivel arms, connect are angled.
As preferably, described connection one end by turnbuckle, be fixed on swivel arm, the other end of connecting strand is fixed on drive unit or adjacent swivel arm by shackle, end at swivel arm is provided with stationary shaft, on stationary shaft, be socketed with 1-2 the shackle that can rotate around stationary shaft, shackle takes the shape of the letter U, and described turnbuckle comprises and is positioned at the U-shaped buckle at two ends and is positioned at intermediate conveyor screw body.By turnbuckle, can regulate the elasticity of the connection of connecting strand, U-shaped buckle is connected in the U-loop of shackle, and shackle can be rotated around stationary shaft, meets the needs of the different setting angles of connecting strand.
Therefore, a kind of sun power Clothoid type single shaft tracking structure of the present utility model possesses following advantage:
1, the photovoltaic module of respectively arranging that cable wire Clothoid type single-shaft tracking system allows cable wire to connect has and departs from direction, can adapt to height and rise and fall and irregularity boundary landform.
2, the photovoltaic module of respectively arranging that cable wire Clothoid type single-shaft tracking system allows cable wire to connect has and departs from distance, is not subject to respectively to arrange the impact of interval error.
3, the rotary motion mechanism of a cable wire Clothoid type single-shaft tracking system torque suspension, does not need to build large-scale isolated footing.
4, cable wire Clothoid type single-shaft tracking system, than the tracker of the kinds of drive such as link transmission and gear drive, is more economized with material.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of a kind of sun power Clothoid type single shaft tracking structure of the present utility model.
Fig. 2 is the schematic diagram of photovoltaic module upward time.
Fig. 3 is the schematic diagram that photovoltaic module rotates to an angle.
Fig. 4 is A place enlarged diagram in Fig. 1.
Fig. 5 is the schematic diagram of the syndeton at connecting strand and two ends.
Fig. 6 is the shackle schematic diagram in Fig. 5.
Fig. 7 is B place enlarged diagram in Fig. 1.
Fig. 8 is the rotating shaft connecting structure schematic diagram in Fig. 1.
Fig. 9 is the end enlarged diagram of rotating shaft junction.
Embodiment
Below by embodiment, and by reference to the accompanying drawings, the technical scheme of utility model is described in further detail.
Embodiment:
As shown in Fig. 1 and 2 and 3, a kind of sun power Clothoid type single shaft tracking structure, comprises a plurality of solar photovoltaic assemblies unit 28, and solar photovoltaic assembly unit 28 comprises column 5, is fixed with rotating shaft 1 on column 5, is fixed with a plurality of photovoltaic modulies 2 in rotating shaft 1.Each solar photovoltaic assembly unit 28 is matrix arrangement, is positioned at each rotating shaft 1 of same matrix and is parallel to each other, and is positioned at different matrixes but two rotating shafts being located along the same line connect by rotating shaft connecting structure.The two ends of rotating shaft 1 are fixed on column by split type square bearing.
In rotating shaft 1, be fixed with the swivel arm vertical with rotating shaft 4, swivel arm 4 comprises swivel arm 11 and lower swivel arm 10, and upper and lower swivel arm is all welded in rotating shaft 1.Upper and lower swivel arm is all vertical with rotating shaft 1.Between two adjacent upper swivel arms 11, by cable wire 3, connecting, is also to connect by cable wire 3 between two adjacent lower swivel arms 10, and two cable wires 3 are parallel to each other.In the middle of the rotating shaft being parallel to each other, be fixed with a column 5, on column 5, drive unit be installed, rotating shaft 1 quantity of drive unit both sides equates.Drive unit comprises the rolling disc 7 being fixed on column, and the below of rolling disc 7 is provided with bull stick 29, and bull stick 29 is connected with motor 9, and motor 9 drives bull stick 29 to rotate, and bull stick 29 is worm and gear fit system with rolling disc 7, and the rotation of bull stick 29 drives rolling disc 7 to rotate.As shown in Figure 4, on rolling disc 7, be fixed with concentric swivel plate 8, the two ends up and down of swivel plate 8 are respectively fixed with a stationary shaft 30, on stationary shaft 30, be socketed with two shackles 12, shackle 12 takes the shape of the letter U, on two free ends of opening, be a cylinder ring 14, cylinder ring is socketed on stationary shaft, is socketed with the set collar 31(of cable wire end as shown in Figure 6 in the U-shaped space 15 of formation).The other end of cable wire 3 is fixed on swivel arm 4.On swivel arm 4, same fixing respectively has a stationary shaft 30,12, one shackles 12 of two shackles is installed on stationary shaft 30 left by the swivel plate 8 of cable wire 3 connecting drive devices, and another shackle 12 connects another one swivel arms 4 by cable wire 3 to the right.As shown in Figure 5, in the two ends of cable wire 3, wherein one end is provided with turnbuckle 13, turnbuckle bag 13 is drawn together and is positioned at the U-shaped buckle at two ends and is positioned at middle conveyor screw, by adjusting conveyor screw, adjust the length of cable wire, thereby the length adjustment of cable wire is arrived to the length needing, one of them U-shaped buckle is for being connected with shackle, and another U-shaped buckle is connected with the set collar of cable wire.Cable wire 3 is connected each swivel arm, forms an annular swivel-chain, is driven and is driven each swivel arm to rotate, thereby drive rotating shaft rotation by drive unit, and the rotation of rotating shaft is also rotated the photovoltaic module on it, forms the tracking to sunshine.At photovoltaic module, all upward time, the distance between two rows cable wire is maximum, and when swivel plate swings, the maximum angle of swing is 60 °, and during swing, the distance between two rows cable wire diminishes gradually.Due to the restriction of physical features being installed, allow cable wire to form an offset angle, 0 ° ≦ α≤30 °.
As shown in Figure 7, the center of bearing is square through hole.Bearing is to consist of two identical semicircle shape bearing bodies 17 of shape and structure.On the arc-shaped outer surface of bearing body 17, offer the workplace of circular arc, in the both sides of workplace, respectively have a rib 20, rib 20 is arc, and the radian of rib 20 is identical with the radian of the arc-shaped outer surface of bearing body.In the plane of the formation inside surface of bearing body 17, offer rectangular locating slot, after two bearing bodies splicings, form a circular bearing, the square through hole that two locating slots form a bearing body center is used for holding square rotating shaft 1.Bearing (ball) cover 16 is semicircular arc, the both sides of bearing (ball) cover are connector 18, the rectangular parallelepiped that connector 18 is hollow, the upper surface of connector 18 is smooth plane, the lower surface of connector 18 is the flank of tooth, middle part on the upper surface of connector 18 offers bolt hole, and bolt hole runs through connector by the flank of tooth of connector lower surface.The inner arc surface of bearing (ball) cover is surface of contact, and surface of contact coordinates with workplace.Bearing base 19 comprises a surface of contact being connected with workplace, and the below of surface of contact is supporting seat, and one-body molded in the both sides of surface of contact have a connector, and the structure of connector is identical with the structure of connector on bearing (ball) cover.
As shown in FIG. 8 and 9, rotating shaft 1 is square hollow tubular structure.At the two ends of rotating shaft 1, be welded with syndeton 21, the xsect of syndeton 21 is rectangle, and the area of its xsect is half of rotating shaft 1.The rectangular tube that syndeton 21 is hollow, syndeton 21 is concordant with the bottom surface of rotating shaft 1, the shape of the rectangular ripple in longitudinal section of rotating shaft 1.Rotating shaft 1 is welded with capping 25 with syndeton 21 joints, and capping 25 sizes are identical with the pore size of rotating shaft 1 and syndeton 21 junctions.The bottom surface of two syndetons 21 is concordant with the bottom surface of rotating shaft 1, and the upper surface of syndeton 21 is for being connected and fixed face 23, has keeper and fixture being connected and fixed on face 23.Keeper comprises reinforcement 26 and draw-in groove 22, reinforcement 26 is positioned at the face of being connected and fixed 23 near one end of rotating shaft 1, reinforcement 26 is two and is parallel to each other, reinforcement 26 be shaped as right-angle triangle, one of them right-angle side of reinforcement 26 is welded in capping 25, and another one right-angle side is welded on the face of being connected and fixed 23.At the other end that is connected and fixed face 23, offer two draw-in grooves that are parallel to each other 22, draw-in groove 22 is the open slot of an end opening, draw-in groove 22 is corresponding with reinforcement 26, and when two rotating shafts 1 interconnect, the draw-in groove 22 of one of them rotating shaft 1 coordinates location with the reinforcement 26 of another one rotating shaft 1.The middle part of the face that is connected and fixed between reinforcement 26 and draw-in groove 22 offers four fixed orifices 24, and in fixed orifice, cross-under has bolt 27, and two rotating shafts 1 are interfixed.
Claims (10)
1. a sun power Clothoid type single shaft tracking structure, comprise several solar photovoltaic assembly unit, solar photovoltaic assembly unit comprises column, on column, be fixed with rotating shaft, in rotating shaft, be fixed with photovoltaic module, it is characterized in that: the one end in each rotating shaft is all fixed with a swivel arm, and each swivel arm connects by connecting strand, connecting strand is fixed on drive unit, and drive unit drives swivel arm to rotate by connecting strand.
2. a kind of sun power Clothoid type single shaft tracking structure according to claim 1, is characterized in that: described swivel arm comprises swivel arm and lower swivel arm, and on upper swivel arm and lower swivel arm, be all connected with connecting strand, each connecting strand is connected to form annular.
3. a kind of sun power Clothoid type single shaft tracking structure according to claim 2, it is characterized in that: the connecting strand between adjacent two upper swivel arms and the connecting strand between adjacent two lower swivel arms are parallel to each other, when swivel arm rotates, the distance between two connecting strands that are parallel to each other from large to small or change from small to big.
4. according to a kind of sun power Clothoid type single shaft tracking structure described in claim 1 or 2 or 3, it is characterized in that: each described rotating shaft is parallel to each other, swivel arm is vertical with rotating shaft, each swivel arm is also parallel, the quantity of the solar photovoltaic assembly unit of drive unit both sides is identical, drive unit is connected by connecting strand respectively with two swivel arms of drive unit both sides, between all the other two adjacent swivel arms, is provided with a connecting strand.
5. according to a kind of sun power Clothoid type single shaft tracking structure described in claim 1 or 2 or 3, it is characterized in that: described drive unit comprises rolling disc, on rolling disc, be fixed with swivel plate, swivel plate is positioned at the center of rolling disc, the two ends up and down of swivel plate are equipped with clip, rolling disc clockwise or the scope that is rotated counterclockwise be 0 ° ~ 60 °.
6. a kind of sun power Clothoid type single shaft tracking structure according to claim 4, it is characterized in that: described drive unit comprises rolling disc, on rolling disc, be fixed with swivel plate, swivel plate is positioned at the center of rolling disc, the two ends up and down of swivel plate are equipped with clip, rolling disc clockwise or the scope that is rotated counterclockwise be 0 ° ~ 60 °, below rolling disc, be provided with bull stick, bull stick is connected with motor, and rolling disc and bull stick form worm gear structure.
7. according to a kind of sun power Clothoid type single shaft tracking structure described in claim 1 or 2 or 3, it is characterized in that: described rotating shaft is square shaft, between described rotating shaft and column, by square bearing, be connected, described square bearing is split-type structural, described bearing body is to consist of two bearing bodies that are arranged symmetrically with, bearing body is arc, the external peripheral surface of bearing body is provided with circular arc workplace, the inner circumferential surface of bearing body is provided with locating slot, and two locating slot amalgamations form the through hole of bearing body; Described bearing seat is to consist of bearing (ball) cover and bearing base, is equipped with the surface of contact coordinating with the workplace of bearing body on bearing (ball) cover and bearing base, and bearing (ball) cover is connected by syndeton with bearing base.
8. a kind of sun power Clothoid type single shaft tracking structure according to claim 6, it is characterized in that: described rotating shaft is square shaft, between described rotating shaft and column, by square bearing, be connected, described square bearing is split-type structural, described bearing body is to consist of two bearing bodies that are arranged symmetrically with, and bearing body is arc, and the external peripheral surface of bearing body is provided with circular arc workplace, the inner circumferential surface of bearing body is provided with locating slot, and two locating slot amalgamations form the through hole of bearing body; Described bearing seat is to consist of bearing (ball) cover and bearing base, is equipped with the surface of contact coordinating with the workplace of bearing body on bearing (ball) cover and bearing base, and bearing (ball) cover is connected by syndeton with bearing base.
9. according to a kind of sun power Clothoid type single shaft tracking structure described in claim 1 or 2 or 3, it is characterized in that: described connecting strand and the angle between ground level are 0 ° ~ 30 °.
10. according to a kind of sun power Clothoid type single shaft tracking structure described in claim 1 or 2 or 3, it is characterized in that: described connection one end by turnbuckle, be fixed on swivel arm, the other end of connecting strand is fixed on drive unit or adjacent swivel arm by shackle, end at swivel arm is provided with stationary shaft, on stationary shaft, be socketed with 1-2 the shackle that can rotate around stationary shaft, shackle takes the shape of the letter U, and described turnbuckle comprises and is positioned at the U-shaped buckle at two ends and is positioned at intermediate conveyor screw body.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320668134.1U CN203552066U (en) | 2013-10-29 | 2013-10-29 | Rotary single-axis solar energy tracking structure |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320668134.1U CN203552066U (en) | 2013-10-29 | 2013-10-29 | Rotary single-axis solar energy tracking structure |
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| CN203552066U true CN203552066U (en) | 2014-04-16 |
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| CN201320668134.1U Expired - Lifetime CN203552066U (en) | 2013-10-29 | 2013-10-29 | Rotary single-axis solar energy tracking structure |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103760910A (en) * | 2013-10-29 | 2014-04-30 | 杭州帷盛科技有限公司 | Rotary solar single-shaft tracking system |
| CN106533343A (en) * | 2016-12-08 | 2017-03-22 | 苏州聚晟太阳能科技股份有限公司 | Photovoltaic bracket applicable to mountain topography |
| CN107171625A (en) * | 2017-05-31 | 2017-09-15 | 珠海格力电器股份有限公司 | The photovoltaic component system of adjustable angle |
| CN113752211A (en) * | 2021-09-09 | 2021-12-07 | 同景新能源科技(江山)有限公司 | Photovoltaic support component maintenance and replacement method and device |
-
2013
- 2013-10-29 CN CN201320668134.1U patent/CN203552066U/en not_active Expired - Lifetime
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103760910A (en) * | 2013-10-29 | 2014-04-30 | 杭州帷盛科技有限公司 | Rotary solar single-shaft tracking system |
| CN106533343A (en) * | 2016-12-08 | 2017-03-22 | 苏州聚晟太阳能科技股份有限公司 | Photovoltaic bracket applicable to mountain topography |
| CN106533343B (en) * | 2016-12-08 | 2019-03-29 | 苏州聚晟太阳能科技股份有限公司 | A kind of photovoltaic bracket being adapted to mountain topography |
| CN107171625A (en) * | 2017-05-31 | 2017-09-15 | 珠海格力电器股份有限公司 | The photovoltaic component system of adjustable angle |
| CN107171625B (en) * | 2017-05-31 | 2024-02-06 | 珠海格力电器股份有限公司 | Angle-adjustable photovoltaic module system |
| CN113752211A (en) * | 2021-09-09 | 2021-12-07 | 同景新能源科技(江山)有限公司 | Photovoltaic support component maintenance and replacement method and device |
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Granted publication date: 20140416 |