CN207691732U

CN207691732U - Photovoltaic module support

Info

Publication number: CN207691732U
Application number: CN201721668494.6U
Authority: CN
Inventors: 马维波
Original assignee: Woma New Energy (jiangsu) Co Ltd
Current assignee: Woma New Energy (jiangsu) Co Ltd
Priority date: 2017-12-04
Filing date: 2017-12-04
Publication date: 2018-08-03
Anticipated expiration: 2027-12-04

Abstract

The utility model belongs to photovoltaic technology field,More particularly to photovoltaic module support,Including supporting rack,The photovoltaic frame of photovoltaic panel is installed on supporting rack,Photovoltaic frame is inclined to be arranged on supporting rack,It is characterized in that,The photovoltaic frame includes two crossbeams being connect with supporting rack,The longeron intersected with crossbeam is equipped between two crossbeams,Longeron is equipped with the cross bar of multiple fixation photovoltaic panels parallel with crossbeam,Cross bar,The both ends of crossbeam are equipped with lower platen,Lower platen is mounted on cross bar by retaining mechanism adjustable tilt angle,On crossbeam,Lower platen one end is big,One end is small,Lower platen is equipped with the downward portion that arches upward compared with big end bottom side,Lower platen bottom face from compared with big end end to being the sty increased suddenly close to portion side of arching upward,The lower platen bottom face for the portion other side pushing the back down small end that arches upward is the gently sloping surface of slow drop,The incidence regulating mechanism at adjustment photovoltaic frame angle of inclination is additionally provided on supporting rack,Weaken the influence of environment,Improve the stability of photovoltaic bracket.

Description

Photovoltaic module support

Technical field

The utility model belongs to photovoltaic technology field, and in particular to photovoltaic module support.

Background technology

Photovoltaic bracket system is in order to make entire photovoltaic generating system obtain maximum power output, in conjunction with the ground of building site Reason, weather and solar energy resources condition solar photovoltaic assembly are arranged with certain direction, inclination angle, current photovoltaic bracket It is stationary structure mostly, the angle of photovoltaic bracket cannot be adjusted, light cannot be adjusted easily and fast when the sun changes position The wind in environment is arranged to photovoltaic bracket, the sun since solar photovoltaic assembly is arranged in a slanted state in the direction for lying prostrate holder Energy photovoltaic module will produce strong influence, is easy that photovoltaic bracket is made to shake, is used in windy environment, the labor of photovoltaic bracket Damage aggravation, shortens its service life, causes the unstable of solar photovoltaic assembly, reduces generating efficiency.

Utility model content

Technical problem to be solved in the utility model is in view of the foregoing drawbacks, to provide photovoltaic module support, weakens ring The influence in border improves the stability and generating efficiency of photovoltaic bracket.

The technical solution that the utility model solves the use of its technical problem is as follows：

The photovoltaic frame of photovoltaic panel is installed, the inclined setting of photovoltaic frame exists on photovoltaic module support, including supporting rack, supporting rack On supporting rack, the photovoltaic frame includes two crossbeams being connect with supporting rack, and the longeron intersected with crossbeam is equipped between two crossbeams, Longeron be equipped with multiple fixation photovoltaic panels parallel with crossbeam cross bar, cross bar, crossbeam both ends be equipped with lower platen, lower platen By retaining mechanism adjustable tilt angle on cross bar, crossbeam, lower platen one end is big, one end is small, and lower platen is larger Hold bottom side to be equipped with the downward portion that arches upward, lower platen bottom face from compared with big end end to being the abrupt slope increased suddenly close to portion side of arching upward Face, the lower platen bottom face for the portion other side pushing the back down small end that arches upward are the gently sloping surface of slow drop, and adjustment is additionally provided on supporting rack The incidence regulating mechanism at photovoltaic frame angle of inclination, lower platen enhance the stability of photovoltaic bracket entirety, weaken what wind was brought It influences, makes photovoltaic bracket that there is longer service life, incidence regulating mechanism to be conveniently adjusted the inclination angle of photovoltaic frame, greatly improve The efficiency of photovoltaic generation.

Further, the lower platen top end face is plane, under being generated on lower platen when causing air flow through lower platen Pressure.

Further, the retaining mechanism is expansion sleeve, and expansion sleeve is set in cross bar, on crossbeam, and lower platen is set in Outside expansion sleeve, it is conveniently adjusted the angle of inclination of lower platen, to adapt to ambient wind velocity, obtains maximum lower pressure.

Further, the lower platen is set in cross bar, at beam-end, and cross bar, beam-end correspond at lower platen Equipped with the annular groove along itself circumferential surface, annular groove width of rebate is less than slot bottom width, is equipped in annular groove and matches with annular groove sliding The sliding block of conjunction, the retaining mechanism are the lock-screw being arranged on lower platen, lock-screw front end and sliding block screw-thread fit, The angle of inclination of mechanical mechanism controls lower platen, lower platen fixation are not easy to loosen, and to adapt to ambient wind velocity, obtain maximum Lower pressure.

Further, the supporting rack include the front and back frame body being oppositely arranged, connecting plate moving up and down on frame body, Two crossbeams are flexibly connected with connecting plate respectively, and control connecting plate is equipped at frame body and moves up and down and has the driving of self-locking Component.

Further, the driving part is the motor being arranged at frame body, and it is vertical to be connected on motor output shaft Leading screw, leading screw is equipped with feed screw nut, and feed screw nut is fixed on connecting plate and rotatably coordinates with connecting plate, connecting plate with Crossbeam rotatably coordinates.

Further, the driving part is cylinder or hydraulic cylinder.

Further, the frame body includes the connecting rod between two columns of left and right opposition setting, two columns, the drive Dynamic component is arranged between two columns, the intensity of connecting rod frame body, and frame body is made to have preferable wind loading rating.

The utility model has the beneficial effects that：Using the above scheme, lower platen enhances the stability of photovoltaic bracket entirety, The influence that wind is brought is weakened, makes photovoltaic bracket that there is longer service life, and the tilt adjustable of photovoltaic frame, improves photovoltaic hair The efficiency of electricity.

Description of the drawings

Through the following detailed description taken in conjunction with the accompanying drawings, the utility model objects, features and advantages above-mentioned and other will It becomes apparent.

Fig. 1 is the side view of the utility model.

Fig. 2 is the schematic cross-section at lower platen in the utility model embodiment 1.

Fig. 3 is the schematic diagram of supporting rack in the utility model embodiment 1.

Fig. 4 is the schematic cross-section at lower platen in the utility model embodiment 2.

Fig. 5 is the schematic diagram of supporting rack in the utility model embodiment 2.

Wherein：1 is supporting rack, and 11 be frame body, and 12 be connecting plate, and 2 be photovoltaic frame, and 21 be crossbeam, and 22 be longeron, and 23 be cross Bar, 3 be lower platen, and 31 be lug boss, and 32 be sty, and 33 be gently sloping surface, and 4 be annular groove, and 41 be sliding block, and 5 be lock-screw, 6 be leading screw, and 61 be motor, and 62 be feed screw nut, and 7 be tensioner coupling sleeve, and 8 be hydraulic cylinder.

Specific implementation mode

The utility model is described further below in conjunction with the accompanying drawings.

Embodiment 1：- Fig. 3 referring to Fig.1 installs the light of photovoltaic panel on photovoltaic module support, including supporting rack 1, supporting rack 1 Frame 2 is lied prostrate, photovoltaic frame 2 is inclined to be arranged on supporting rack 1, and photovoltaic frame 2 includes two crossbeams 21 being connect with supporting rack 1, and two is horizontal The longeron 22 intersected with crossbeam 21 is equipped between beam 21, longeron 22 is mutually perpendicular to crossbeam 21, and longeron 22 is equipped with multiple and crossbeam The cross bar 23 of 21 parallel fixation photovoltaic panels, cross bar 23, crossbeam 21 both ends be arranged with lower platen 3, one end of lower platen 3 is big, One end is small, and lower platen 3 is equipped with the downward portion 31 that arches upward compared with big end bottom side, and 31 bottom face of lower platen compared with big end end to close from encircleing It is the sty 32 increased suddenly to play portion side, and the lower platen bottom face for 31 other side pushing the back down small end of portion that arches upward is the slow of slow drop Slope surface 33,3 top end face of lower platen are plane, blow air over lower platen 3, are flowed when by sty 32, lug boss 31, gently sloping surface 33 Speed increases, and is that air generates lower platen 3 downward pressure, lower pressure is passed to cross bar 23, crossbeam 21, makes light by lower platen 3 Volt frame 2, supporting rack 1 are whole, and there is lower pressure, lower pressure to improve the stability of photovoltaic bracket, promote under certain wind condition, Photovoltaic module remains unchanged fixing on the ground of can consolidating, reduces influence of the wind to photovoltaic bracket, cross bar 23, crossbeam 21 both ends end Portion is equipped with the annular groove 4 along its own circumferential surface, and annular groove 4 is dovetail type groove, and slidable sliding block 41 is equipped in annular groove 4, under Pressing plate 3 is equipped with lock-screw 5,5 front end of lock-screw and 41 screw-thread fit of sliding block, and lower platen 3 is fixed on by logical lock-screw 5 Cross bar 23, crossbeam 21, and angle of inclination and direction of the lower platen 3 on cross bar 23, crossbeam 21 can be adjusted, with wind speed pair It answers, makes to generate sufficiently large lower pressure on lower platen 3, give full play to the effect of lower platen, improve and use effectiveness.

Supporting rack 1 includes connecting plate 12 moving up and down on the front and back frame body 11 being oppositely arranged, frame body 11, two crossbeams 21 are rotatably connected with connecting plate 12 by bearing respectively, and the middle per side frame body 11 is equipped with control connecting plate 12 and moves up and down Driving part, driving part includes the leading screw 6 being vertically arranged, the motor 61 of 6 bottom of leading screw, the output shaft connecting filament of motor 61 Thick stick 6, leading screw 6 are equipped with feed screw nut 62, and connecting plate 12 is equipped with the through-hole passed through for leading screw 6, is equipped with and leading screw spiral shell in through-hole The bearing of 62 connection of mother drives the upper and lower position of the rotation control connecting plate 12 of leading screw 6 by motor 61, to realize photovoltaic frame 2 Angle of inclination adjusting, so that photovoltaic panel is played maximum generating efficiency, motor is powered by the electric energy that photovoltaic panel generates, it is self-supporting oneself Foot makes full use of electric energy to realize the tilt adjustment of photovoltaic frame, and adjustment is quick, efficient, this photovoltaic module support performance is strong, tool There is stronger stability, wind resistance power is strong, extends service life.

Embodiment 2：- Fig. 2, Fig. 4-Fig. 5 referring to Fig.1 install light on photovoltaic module support, including supporting rack 1, supporting rack 1 The photovoltaic frame 2 of plate is lied prostrate, photovoltaic frame 2 is inclined to be arranged on supporting rack 1, and photovoltaic frame 2 includes two crossbeams being connect with supporting rack 1 21, the longeron 22 intersected with crossbeam 21 is equipped between two crossbeams 21, longeron 22 is mutually perpendicular to crossbeam 21, and longeron 22 is equipped with multiple The cross bar 23 of the fixation photovoltaic panel parallel with crossbeam 21, cross bar 23, crossbeam 21 both ends be arranged with lower platen 3, the one of lower platen 3 End is big, one end is small, and lower platen 3 is equipped with the downward portion 31 that arches upward compared with big end bottom side, 31 bottom face of lower platen from compared with big end end to Close to arching upward, portion side is the sty 32 increased suddenly, and the lower platen bottom face for 31 other side pushing the back down small end of portion that arches upward is slow The gently sloping surface 33 of drop, 3 top end face of lower platen are plane, blow air over lower platen 3, by sty 32, lug boss 31, gently sloping surface Flow velocity increases when 33, is that air generates lower platen 3 downward pressure, lower pressure is passed to cross bar 23, crossbeam by lower platen 3 21, make photovoltaic frame 2, supporting rack 1 are whole there is lower pressure, lower pressure to improve the stability of photovoltaic bracket, promote in certain wind-force Under the conditions of, what photovoltaic module can still consolidate fixes on the ground, reduces influence of the wind to photovoltaic bracket, cross bar 23, crossbeam 21 Both ends end be equipped with installation lower platen 3 tensioner coupling sleeve 7, by tensioner coupling sleeve 7 install lower platen 3, by adjusting rising Tight coupling sleeve 7 realize lower platen 3 cross bar 23, crossbeam 21 it is elastic, to realize lower platen 3 on cross bar 23, crossbeam 21 Angle of inclination, the adjusting with direction, it is corresponding with wind speed, make to generate sufficiently large lower pressure on lower platen 3, gives full play to lower platen Effect, improve use effectiveness.

Supporting rack 1 includes connecting plate 12 moving up and down on the front and back frame body 11 being oppositely arranged, frame body 11, two crossbeams 21 are rotatably connected with connecting plate 12 by bearing respectively, and the middle per side frame body 11 is equipped with control connecting plate 12 and moves up and down Driving part, frame body 11 includes two columns of left and right opposition setting, the connecting rod between two columns, and connecting rod reinforces connection, driving portion Part is the height and position that the upward output end connection control connecting plate 12 of connecting plate 12 of hydraulic cylinder 8 at 11 middle part of frame body is arranged, Realize the tilt adjustment of photovoltaic frame, adjustment is quick, efficient, this photovoltaic module support performance is strong, has stronger stability, Wind resistance power is strong, extends service life.

The above is only the preferred embodiment of the utility model, not does limit in any form to the utility model It makes, to any simple modification, equivalent variations made by above example in every foundation the technical essence of the utility model, falls Enter within the scope of protection of the utility model.

Claims

1. installing the photovoltaic frame of photovoltaic panel on photovoltaic module support, including supporting rack, supporting rack, the inclined setting of photovoltaic frame is being propped up On support, which is characterized in that the photovoltaic frame includes two crossbeams being connect with supporting rack, is equipped between two crossbeams and is handed over crossbeam The longeron of fork, longeron be equipped with multiple fixation photovoltaic panels parallel with crossbeam cross bar, cross bar, crossbeam both ends be equipped with pushing Plate, lower platen is by retaining mechanism adjustable tilt angle on cross bar, crossbeam, and lower platen one end is big, one end is small, under Pressing plate is equipped with the downward portion that arches upward compared with big end bottom side, and lower platen bottom face to close to portion side of arching upward compared with big end end to be steep from increasing Sty, the lower platen bottom face of the portion other side pushing the back down small end that arches upward is the gently sloping surface of slow drop, is also set on supporting rack There is the incidence regulating mechanism at adjustment photovoltaic frame angle of inclination.

2. photovoltaic module support according to claim 1, which is characterized in that the lower platen top end face is plane.

3. photovoltaic module support according to claim 1, which is characterized in that the retaining mechanism is expansion sleeve, tensioner It is set in cross bar, on crossbeam, lower platen is set in outside expansion sleeve.

4. photovoltaic module support according to claim 1, which is characterized in that the lower platen is set in cross bar, crossbeam End, cross bar, beam-end correspond to the annular groove being equipped at lower platen along itself circumferential surface, and annular groove width of rebate is less than slot bottom Width, annular groove is interior to be equipped with the sliding block being slidably matched with annular groove, and the retaining mechanism is the locking being arranged on lower platen Screw, lock-screw front end and sliding block screw-thread fit.

5. photovoltaic module support according to claim 1, which is characterized in that the supporting rack includes front and back is oppositely arranged Frame body, connecting plate moving up and down on frame body, two crossbeams are flexibly connected with connecting plate, control are equipped at frame body and is connected respectively Fishplate bar moves up and down and the driving part with self-locking.

6. photovoltaic module support according to claim 5, which is characterized in that the driving part is to be arranged at frame body Motor, vertical leading screw is connected on motor output shaft, leading screw is equipped with feed screw nut, and feed screw nut is fixed on connecting plate And rotatably coordinate with connecting plate, connecting plate rotatably coordinates with crossbeam.

7. photovoltaic module support according to claim 5, which is characterized in that the driving part is cylinder or hydraulic pressure Cylinder.

8. photovoltaic module support according to claim 5, which is characterized in that the frame body includes left and right opposition setting Connecting rod between two columns, two columns, the driving part are arranged between two columns.