CN206332642U - A kind of photovoltaic bracket for being adapted to mountain topography - Google Patents

Abstract

The utility model is related to a kind of photovoltaic bracket for being adapted to mountain topography, including some girders being sequentially connected, some purlins, several columns, also include being arranged between the end of any two girders being connected and realizing the girder universal connector that two girders are rotated relative to any direction, the drive adjusting device of simultaneously self adaptation photovoltaic tracking driving process is driven as photovoltaic tracking, it is installed between column and girder with the adjustable-angle bearing holder device of the angular adjustment of the relative column of self adaptation girder, it is installed between column and girder with one or more of combinations in the spherical bearing of the angular adjustment of the relative column of self adaptation girder；Drive adjusting device include with driving push rod that girder phase pivot be connected, the telescopic direction of driving push rod is axially retained vertical swing type segmentation column with girder all the time.The utility model can be flexibly adapted to being uneven for ground, and the rotational freedom rotation of three, space can be met in the range of predetermined angular, can extensive use.

Description

A kind of photovoltaic bracket for being adapted to mountain topography

Technical field

The invention belongs to solar energy power generating field, and in particular to a kind of photovoltaic bracket, especially one kind can be adaptive Ying Yu be uneven ground or surface subsidence region and suitable for the photovoltaic bracket of Complex Mountain landform.

Background technology

At present, photovoltaic bracket installation, operation higher requirement is proposed for the flatness in place and foundation settlement, pass The support of system is difficult in adapt to the mountain topography for frequently just rising and falling or having abrupt slope, and complicated landform can greatly improve levelling of the land Input cost.

For adaptation to the ground, mostly by the discrete distribution of support, by stem height can conditioning technology solve the landform that is uneven Installation question, for example, set multiple regulations to install pin-and-hole on column, realize that height is adjusted by the cooperation of bearing pin and pin-and-hole, this Kind of regulative mode can not realize self adaptation, or can only self adaptation low-angle adjustable range, it is difficult to meet ground height and rise and fall and become Change the construction requirements compared with large project ground, can not also avoid the influence for occurring after surface subsidence to system reliability, can not more expire The angle change of sufficient space any direction.Therefore, this support is used for fixed support, and disposable tune during suitable for installing It is whole, subsequently there is surface subsidence, it is necessary to readjust manually, the problems such as not assembling often occurs during adjustment.Tracking Support according to the change driving panel of sun altitude since it is desired that rotate, therefore adapting to mountain topography and surface subsidence in real time Aspect technical difficulty is bigger.Thus, traditional photovoltaic bracket constrains large-scale support and particularly tracks support in mountain region project Development, the hill-land resource of large area is underutilized.

The content of the invention

It is an object of the invention to provide one kind can neatly self adaptation topography variation and install after settle, it is especially suitable with The photovoltaic bracket of the adaptation mountain topography of solar tracking system.

To reach above-mentioned purpose, the technical solution adopted by the present invention is：

A kind of photovoltaic bracket for being adapted to mountain topography, including some be sequentially connected girder, be arranged at the girder The upper some purlins for being used to install photovoltaic panel, several columns for being vertically arranged on mounting surface and supporting the girder, institute Stating photovoltaic bracket also includes being arranged between the end of any two girders being connected and realizing two girder phases To any direction rotate girder universal connector, as photovoltaic tracking drive and described in self adaptation photovoltaic tracking drive process Drive adjusting device, be installed between the column and the girder with the angle of the relative column of girder described in self adaptation The adjustable-angle bearing holder device of regulation, it is installed between the column and the girder with the relative institute of girder described in self adaptation One or more of combinations in the spherical bearing for the angular adjustment for stating column；

The drive adjusting device includes being connected and carrying out the driving of the photovoltaic tracking driving with the girder phase pivot Push rod, the telescopic direction of the driving push rod is set to be segmented column, institute with the vertical swing type of axially retaining of the girder all the time Driving push rod is stated to be connected with swing type segmentation column phase pivot.

It is preferred that, the girder universal connector includes interior lining panel, the first pinboard, the second pinboard, described first Pinboard is mutually fixedly connected and rotated with the interior lining panel by first rotating shaft with a girder and is connected, described second turn Fishplate bar is mutually fixedly connected and rotated with the interior lining panel by the second rotating shaft with another girder and is connected, described first turn Axle and second rotating shaft are tilted or are vertically arranged, and the first rotating shaft and second rotating shaft relatively described girder respectively Axial direction tilt or be vertically arranged.

It is preferred that, in a ring, a girder is connected with the first pinboard described in a pair, another institute to the interior lining panel State girder and be connected with the second pinboard described in a pair, the second pinboard described in the first pinboard described in a pair and a pair alternate with The interior lining panel, which rotates, to be connected and uniformly arranges, and the first rotating shaft and second rotating shaft are along the radial direction of the interior lining panel Set.

It is preferred that, the swing type segmentation column includes lower pillar stand, upper end and the institute being fixedly arranged on vertically on the mounting surface The swing arm of the perpendicular connection of girder is stated, the lower end of the swing arm is rotated by the 3rd rotating shaft with the lower pillar stand and is connected, and institute The 3rd rotating shaft is stated horizontally disposed and perpendicular with the axial direction of the girder, under the swing arm is relatively described around the 3rd rotating shaft Column is swung, and the driving push rod is connected with the swing arm and the axis of the driving push rod and the axis of the swing arm are total to Face.

It is preferred that, the mounting seat for installing the driving push rod, the driving push rod and institute are installed with the swing arm State the connection of mounting seat phase pivot.

It is preferred that, the adjustable-angle bearing holder device include hoop located at the girder periphery bearing block, with it is described Bearing block is mutually fixedly connected and rotated with the column by the 4th rotating shaft the base being connected.

It is preferred that, it is provided between the base and the column and drives the bearing block around the described 4th in the base The detent mechanism that will be locked behind axis of rotation to required position between the base and the column.

It is preferred that, the detent mechanism include be connected with the column bolt, be opened on the base Arch screw bolt hole, the bolt is arranged in the arch screw bolt hole, when the base drives the bearing block around described During four axis of rotation, the bolt is slided in the arch screw bolt hole.

It is preferred that, the spherical bearing is installed on the column and bound round located at the girder periphery.

Because above-mentioned technical proposal is used, the present invention has following advantages compared with prior art：The present invention's is adapted to The photovoltaic bracket of mountain topography can be flexibly adapted to being uneven for ground in the process of running, can be in the range of predetermined angular The rotational freedom rotation of three, space is met, can be obtained extensively in the complicated landform area for being uneven, easily occurring surface subsidence Using.At the same time, the program is because that can meet the rotation of all directions, while the installation that can be made up between two adjacent upright posts is missed Difference, and the height adjustment mechanism set on column can be substituted.

Brief description of the drawings

Accompanying drawing 1 is the overall schematic of one embodiment of the photovoltaic bracket for being adapted to mountain topography of the present invention.

Accompanying drawing 2 is the structural representation of the photovoltaic bracket middle girder universal connector for being adapted to mountain topography of the present invention Figure.

Accompanying drawing 3 shows for the structure for being adapted to adjustable-angle bearing holder device in the photovoltaic bracket of mountain topography of the present invention It is intended to.

Accompanying drawing 4 is the structural representation that swing type in the photovoltaic bracket of mountain topography is segmented column that is adapted to of the invention.

Accompanying drawing 5 is the structural representation for being adapted to spherical bearing in the photovoltaic bracket of mountain topography of the invention.

In the figures above：1st, girder；2nd, purlin；3rd, column；4th, girder universal connector；5th, adjustable-angle bearing block Device；6th, swing type segmentation column；7th, interior lining panel；8th, the first pinboard；9th, the second pinboard；10th, first rotating shaft；11st, second Rotating shaft；12nd, fastening connection piece；13rd, bearing block；14th, base；15th, the 4th rotating shaft；16th, bolt；17th, arch screw bolt hole； 18th, lower pillar stand；19th, swing arm；20th, the 3rd rotating shaft；21st, the second connecting plate；22nd, driving push rod；23rd, mounting seat；24th, spherical axis Hold；25th, hillside；26th, photovoltaic panel；27th, the first connecting plate；28th, limit bolt.

Embodiment

The invention will be further described for shown embodiment below in conjunction with the accompanying drawings.

Embodiment one：As shown in Figure 1, a kind of photovoltaic bracket for being adapted to mountain topography, including some sections are square The girder 1 of shape, be arranged on girder 1 be used for install photovoltaic panel 26 some purlins 2, be vertically arranged to mounting surface（Such as ground） Several columns of upper and support girder 1.Each girder 1 joins end to end successively to be connect, and a girder 1 needs to be equipped with most cases Two with upper pillar stand, the axial direction of the vertically-mounted finger column 3 of column 3 is identical with gravity direction.In the present embodiment, photovoltaic bracket Mounting surface is the surface on hillside 25, and it both has flatter ground, it may have inclined bottom surface.To set three girders 1 to be Example, wherein two girders 1 are arranged at ground flatter on hillside 25, a girder 1 is arranged on hillside 25 and tilted in addition Ground at.The upright supports of common form can be used by being arranged at two girders 1 at flatter ground.

The photovoltaic bracket also include girder universal connector 4, drive adjusting device, adjustable-angle bearing holder device, One or more of combinations in spherical bearing.

As shown in Figure 2, girder universal connector 4 is used for two adjacent girders 1 of connecting, and makes the end of two girders 1 Portion is mutually flexibly connected, so that two girders 1 can be rotated relative to any direction.The girder universal connector 4 can both be used Existing various Universal connecting mechanisms, it would however also be possible to employ following structure：Girder universal connector 4 include interior lining panel 7, first turn The pinboard 9 of fishplate bar 8 and second.Wherein, the end of the first pinboard 8 and the second pinboard 9 respectively with two girders 1 to be connected Mutually it is fixedly connected, and the first pinboard 8 and the second pinboard 9 are also respectively by the rotating shaft 11 of first rotating shaft 10 and second and liner Plate 7 is rotated connection, and the rotating shaft 11 of first rotating shaft 10 and second is tilted or is vertically arranged, the rotating shaft 11 of first rotating shaft 10 and second The axial direction with respect to girder 1 tilts or is vertically arranged respectively, so that two girders 1 can be relative to multi-direction rotation.Liner Plate 7 can be using the ring form closed（Including diversified forms such as annular, round rectangles）, it is in the present embodiment, interior Liner plate 7 is round rectangle.And a girder 1 is connected with a pair of first pinboards 8 by fastening connection piece 12, this pair first turn Fishplate bar 8 is arranged on relative two surface of girder 1, and another girder 1 is connected with a pair second by fastening connection piece 12 Pinboard 9, this pair of second pinboard 9 are arranged on relative two surface of girder 1.First pinboard 8 and the second switching Plate 9 it is arranged in a crossed manner with avoid interference.So as to which a pair of first pinboards 8 and a pair of second pinboards 9 alternate and the phase of interior lining panel 7 Connection is rotated, and is evenly spaced on the annular profile of interior lining panel 7, the rotating shaft 11 of first rotating shaft 10 and second is along interior lining panel 7 It is radially arranged, therefore the rotating shaft 11 of first rotating shaft 10 and second is perpendicular, and work as two masters that the girder universal connector 3 is connected When axle is coaxial, axial direction of the rotating shaft 11 of first rotating shaft 10 and second with girder 1 is perpendicular.The rotating shaft 11 of first rotating shaft 10 and second can To be realized by bearing pin.The girder universal connector 3 can automatically enter according to the radial missing between two neighboring column 3 Row regulation, it can realize on the direction of two Relative verticals and freely rotate.

Drive adjusting device is used as photovoltaic tracking driving and self adaptation photovoltaic tracking driving process, and it can replace common Column.As shown in Figure 4, swing type segmentation column 6 is installed on mounting surface and is connected with girder 1, and it is typically mounted on mountain The inclined plane on slope 25 or other there is the position of the larger discrepancy in elevation or sedimentation.Drive adjusting device includes carrying out photovoltaic by flexible Track the driving push rod 22 of driving, the telescopic direction of driving push rod is segmented all the time with the vertical swing type of axially retaining of girder Column 6.Swing type segmentation column 6 includes lower pillar stand 18 and swing arm 19.Lower pillar stand 18 is fixedly installed on mounting surface vertically, thereon End is rotated with the lower end of swing arm 19 and is connected by the 3rd rotating shaft 20, and the upper end of swing arm 19 is then connected with corresponding girder 1 Connect, and swing arm 19 and the girder are perpendicular.The upper end of lower pillar stand 18 is provided with a pair of second connecting plates 21, and the 3rd rotating shaft 20 is pacified Loaded between the second connecting plate 21.3rd rotating shaft 20 is horizontally disposed and perpendicular with the axial direction of girder 1, so as to realize swing arm Around the 3rd rotating shaft 20, the left and right directions in the vertical rotation in surface where main shaft, i.e. Fig. 4 is swung 19 relative lower pillar stands 18.It is applied to The photovoltaic bracket in complicated landform should at least include a swing type segmentation column 6.Driving push rod 22 is connected with swing arm 19 Connect and axis and the swing arm 19 of driving push rod 22 axis co-planar.The installation for installing driving push rod 22 is installed with swing arm 19 Seat 23.Driving push rod 22 includes the pusher body that ram seat and relative ram seat are stretched, and ram seat passes through mounting seat 23 and swing arm 19 Phase pivot is connected, and pusher body is connected with main shaft by certain mechanical structure phase pivot.Being segmented column 6 by swing type can make to push away Axially retaining for the girder that the telescopic direction of the body of rod is connected with it all the time is vertical.When pusher body is flexible, it can drive it The main axis connected, main shaft drives purlin 2 and the photovoltaic panel installed thereon 26 to rotate again, so as to realize photovoltaic tracking. Swing type segmentation column 6, which is realized, makes driving push rod 22 vertical with the pivot of girder 1 all the time so that tracking carriage drive dress Putting will not be influenceed by height rolling topography in the process of running, it is to avoid the jam of driving push rod 22 is damaged.When using common During the column being vertically arranged, at sloping floor, because girder and column can not keep plumbness so that installed in common vertical The girder that driving push rod on post can not also be promoted with it keeps vertical, therefore can cause driving jam, and above-mentioned swing type is segmented Column 6 solves the problem well.

Adjustable-angle bearing holder device is used for the angular adjustment of the relatively described column of girder described in self adaptation.Such as accompanying drawing 3 Shown, adjustable-angle bearing holder device 5 is connected between column and girder 1, and it includes bearing block 13 and base 14.Bearing block 13 hoops are located at the periphery of girder 1, the bearing block 13 for the two-part that can be connected using rotating shaft, so as to conveniently attach it to girder 1 On.Base 14 is installed in the bottom of bearing block 13, the i.e. side close to ground.Base 14 includes two sections of support plates and is connected to two sections of branch Arc between plate, the shape of arc and the profile of bearing block 13 match and are jointly mounted to the outer peripheral face of bearing block 13 On, two sections of support plates protrude from bearing block 13.Two sections of support plates of bearing block 13 are to be mounted vertical with its institute by the 4th rotating shaft 15 The top of post rotates connection, and the axial direction of the 4th rotating shaft 15 is horizontally disposed and the axial direction of the girder 1 set is bound round with its bearing block 13 Perpendicular, the 4th rotating shaft 15 can also be realized by bearing pin.So as to which base 14 can drive bearing block 13 and girder therein 1 In vertical rotation in surface.The upper end for being usually mounted with the column of the adjustable-angle bearing holder device 5 is provided with a pair first companies Fishplate bar 27, the 4th rotating shaft 15 is installed between the first connecting plate 27.One detent mechanism can also be set between base 14 and column, The detent mechanism is used to drive bearing block 13 after the 4th rotating shaft 15 turns to required position in base 14, by base 14 and column Locked between 3.Detent mechanism includes the bolt 16 being connected with column, the arch screw bolt hole 17 being opened on base 14, Bolt 16 is arranged in arch screw bolt hole 17, when base 14 drives bearing block 13 to be rotated around the 3rd rotating shaft 15, positions spiral shell Bolt 16 is slided in arch screw bolt hole 17.Adjustable-angle bearing holder device 5 can be such that bearing block 13 is deflected necessarily with respect to column 3 Angle, adapts it to the deflection of girder 1.

As shown in Figure 5, spherical bearing 24 is typically mounted on the column upper end at flat ground, and its periphery is installed in vertical On post, so as to coordinate the rotation of main shaft.Spherical bearing 24 can deflect certain angle, adapt it to the deflection of girder 1, it Can mutually it be replaced with adjustable-angle bearing holder device 5.

In a set of photovoltaic bracket, stood positioned at the outside of outermost two girders 1, i.e. girder 1 with outermost two The outside of the connection of post 3, in addition it is also necessary to which limit bolt 28 is set respectively, to prevent that girder 1 from being slid due to its inclination angle.

The scheme of above-mentioned photovoltaic bracket is adapted to complicated landform, can self adaptation wide-angle, height rise and fall mountain topography, and And can adapt to the physical features change because caused by surface subsidence.By introduce universal connector, column adjustable angle technology, Bearing adjustable angle technology, the wide-angle hypsography of self adaptation all directions can change in operation and installation process, and System is not influenceed normally to track transmission.The program can be widely applied to fixed support, flat single shaft, oblique single shaft and big linkage tracking system In system, the construction for current photovoltaic bracket in mountain topography and geology free settling area is significant.

The above embodiments merely illustrate the technical concept and features of the present invention, and its object is to allow person skilled in the art Scholar can understand present disclosure and implement according to this, and it is not intended to limit the scope of the present invention.It is all according to the present invention The equivalent change or modification that Spirit Essence is made, should all be included within the scope of the present invention.

Claims (9)

1. a kind of photovoltaic bracket for being adapted to mountain topography, including some be sequentially connected girder, be arranged on the girder For several columns for installing some purlins of photovoltaic panel, being vertically arranged on mounting surface and supporting the girder, it is special Levy and be：The photovoltaic bracket also includes being arranged between the end of any two girders being connected and realizing two institutes State girder universal connector that girder rotates relative to any direction, as photovoltaic tracking driving and photovoltaic tracking described in self adaptation The drive adjusting device of driving process, be installed between the column and the girder it is relative described vertical with girder described in self adaptation The adjustable-angle bearing holder device of the angular adjustment of post, it is installed between the column and the girder with main described in self adaptation One or more of combinations in the spherical bearing of the angular adjustment of the relatively described column of beam；

The drive adjusting device include be connected with the girder phase pivot and carry out the photovoltaic tracking driving driving push rod, The telescopic direction of the driving push rod is set to be segmented column, the driving with the vertical swing type of axially retaining of the girder all the time Push rod is connected with swing type segmentation column phase pivot.

2. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 1, it is characterised in that：The girder is universal Attachment means include interior lining panel, the first pinboard, the second pinboard, and mutually fixation connects first pinboard with a girder Connect and rotated with the interior lining panel by first rotating shaft and is connected, mutually fixation connects second pinboard with another girder Connect and rotated with the interior lining panel by the second rotating shaft and is connected, the first rotating shaft and second rotating shaft are tilted or vertically Set, and the axial direction of the first rotating shaft and second rotating shaft relatively described girder respectively tilts or is vertically arranged.

3. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 2, it is characterised in that：The interior lining panel is in Annular a, girder is connected with the first pinboard described in a pair, and another girder is connected with described in a pair second turn Fishplate bar, the second pinboard described in the first pinboard described in a pair and a pair alternates to rotate with the interior lining panel and is connected and uniform Arrangement, the first rotating shaft and second rotating shaft being radially arranged along the interior lining panel.

4. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 1, it is characterised in that：The swing type point Duan Lizhu includes lower pillar stand, upper end and the swing arm of the perpendicular connection of the girder being fixedly arranged on vertically on the mounting surface, described The lower end of swing arm is rotated by the 3rd rotating shaft with the lower pillar stand and is connected, and the 3rd rotating shaft it is horizontally disposed and with the master The axial direction of beam is perpendicular, and around the 3rd rotating shaft, the lower pillar stand is swung relatively for the swing arm, the driving push rod with it is described Swing arm is connected and the axis of the driving push rod and the axis co-planar of the swing arm.

5. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 4, it is characterised in that：It is solid in the swing arm Provided with the mounting seat for installing the driving push rod, the driving push rod is connected with the mounting seat phase pivot.

6. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 1, it is characterised in that：The adjustable angle Formula bearing holder device include hoop located at the girder periphery bearing block, be mutually fixedly connected with the bearing block and with the column Rotated the base of connection by the 4th rotating shaft.

7. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 6, it is characterised in that：The base and institute To state be provided between column drives the bearing block will be described after the 4th axis of rotation to required position in the base The detent mechanism locked between base and the column.

8. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 7, it is characterised in that：The detent mechanism Including the bolt being connected with the column, the arch screw bolt hole being opened on the base, the bolt is set In the arch screw bolt hole, when the base drives the bearing block around four axis of rotation, the bolt Slided in the arch screw bolt hole.

9. a kind of photovoltaic bracket for being adapted to mountain topography according to claim 1, it is characterised in that：The spherical bearing It is installed on the column and binds round located at the girder periphery.