CN105048942B - Bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure - Google Patents

Abstract

The present invention relates to a kind of bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure, it is characterised in that it includes rear cross beam（102）And the left photovoltaic module that left and right is adjacently positioned（103）With right photovoltaic module（104）, left photovoltaic module（103）Left frame back segment be highly less than right photovoltaic module（104）Left frame back segment height, pass through briquetting after one（107）And a briquetting adjusting part is by left photovoltaic module（103）Left frame back segment and right photovoltaic module（104）Left frame back segment be fixed on rear cross beam（102）On, briquetting adjusting part is bidirectional helical type briquetting adjusting part（3）.Bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure of the present invention has and can built in acclive landform, ensures that structure is reliable, the advantages of being easily installed.

Description

Bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure

Technical field

The present invention relates to a kind of bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure.

Background technology

With the scarcity of land resource, the relatively good ground of western illumination condition is fewer and fewer, and substantial amounts of hills, mountain Ground is because operating expenses is higher therefore and is treated coldly.Because general solar photovoltaic assembly is fixed as 4 points of compactings of front two rows Method, i.e. a solar photovoltaic assembly need to be fixed using four in the same plane four briquettings, when running into band During acclive landform, because front and rear two crossbeams are not parallel, cause this four briquettings in one plane would not work as briquetting Between difference in height when being more than 3 ~ 4mm, depress the broken of glass that solar photovoltaic assembly can be caused after briquetting by force.

Therefore seeking one kind can be built in acclive landform, ensure that structure is reliable, what is be easily installed is two-way Screw-type gradient installing solar photovoltaic component difference in height mounting structure is particularly important.

The content of the invention

It is an object of the invention to overcome above-mentioned deficiency, there is provided one kind can be built in acclive landform, be protected It is reliable to demonstrate,prove structure, the bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure being easily installed.

The object of the present invention is achieved like this：

A kind of bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure, it is characterised in that after it includes The left photovoltaic module and right photovoltaic module that crossbeam and left and right are adjacently positioned,

The left frame back segment of left photovoltaic module is highly less than the left frame back segment height of right photovoltaic module, by being pressed after one Block and a briquetting adjusting part fix the left frame back segment of the left frame back segment of left photovoltaic module and right photovoltaic module In on rear cross beam, briquetting adjusting part is bidirectional helical type briquetting adjusting part, and bidirectional helical type briquetting adjusting part includes solid Reservation, lifting seat and one are used for the lift adjustment bolt of connection fixing base and lifting seat, and the fixed seat includes being vertically arranged Fixed seat body, the upper left corner of fixed seat body is provided with lower crosspiece to the left, and the bottom of fixed seat body is provided with to the right Bottom plate, the middle hypomere of fixed seat body is provided with lower sleeve, and internal thread is provided with lower sleeve, and the lifting seat includes vertical The lifting seat body of arrangement, the lower right corner of lifting seat body are provided with upper crosspiece to the right, are provided with the top of lifting seat body Top plate to the left, the stage casing of lifting seat are provided with upper bush, and internal thread, the epimere of the lift adjustment bolt are provided with upper bush Outer surface and hypomere outer surface are respectively arranged with external screw thread and lower external screw thread, upper external screw thread externally threaded screw thread side with To on the contrary, upper external screw thread is consistent with the internal thread direction of upper bush, lower external screw thread is consistent with the internal thread direction of lower sleeve, lifting The square hole for being internally provided with up/down perforation of regulation cock, the hypomere of lift adjustment bolt are arranged in lower sleeve, lift adjustment bolt Epimere is arranged in upper bush, unobstructed along in the fixed seat of the above-below direction of square hole and lifting seat, the above-below direction shape of square hole Into unimpeded mounting hole, the left frame back segment of left photovoltaic module is held on rear cross beam, and fixed seat is positioned on rear cross beam, bottom plate It is held on rear cross beam, the left end bottom surface of lower crosspiece is pushed down at the top of the left frame back segment of left photovoltaic module, a left side for right photovoltaic module Frame back segment is held on upper crosspiece, and the left pressure tongue of rear briquetting pushes down the top surface of top plate, and the right pressure tongue of rear briquetting pushes down right photovoltaic The left frame back segment of component, after one clamping screw through rear briquetting and the mounting hole of double L-shaped screw-type briquetting adjusting part, The hypomere of clamping screw, which is worn, afterwards postpones in crossbeam, is locked the position of rear clamping screw by locking nut after one.

The bottom surface of lower crosspiece is equal to the height of the left frame of left photovoltaic module, upper crosspiece to the height between the bottom surface of bottom plate Top surface to top plate top surface height be equal to right photovoltaic module left frame height.

The top left section of fixed seat body is vertically provided with former and later two left step breach, the top right section of fixed seat body Former and later two right step breach are vertically provided with, left section of top plate is provided with former and later two right-angle notchs, the sinking section of rear briquetting It is embedded in by corner after two right-angle notchs in two left step breach and two right step breach.

Compared with prior art, the beneficial effects of the invention are as follows：

Bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure of the present invention has and can have the gradient Landform on built, ensure structure it is reliable, the advantages of being easily installed.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is Fig. 1 partial structural diagram.

Fig. 3 is the structural representation of bidirectional helical type briquetting adjusting part.

Fig. 4 is the explosive view of bidirectional helical type briquetting adjusting part.

Wherein：

Front beam 101, rear cross beam 102, left photovoltaic module 103, right photovoltaic module 104, preceding briquetting 105, preceding clamping screw 106th, rear briquetting 107, rear clamping screw 108

Bidirectional helical type briquetting adjusting part 3, fixed seat 3.1, fixed seat body 3.1.1, lower crosspiece 3.1.2, bottom plate 3.1.3, lower sleeve 3.1.4, left step breach 3.1.5, lifting seat 3.2, lifting seat body 3.2.1, upper crosspiece 3.2.2, top plate 3.2.3, upper bush 3.2.4, right step breach 3.2.5, right-angle notch 3.2.6, lift adjustment bolt 3.3, square hole 3.3.1.

Embodiment

Referring to Fig. 1 ~ Fig. 4, a kind of bidirectional helical type gradient installing solar photovoltaic component system of the present invention, it is wrapped The left photovoltaic module 103 and right photovoltaic that the front beam 101 of not parallel arrangement and rear cross beam 102 and left and right are adjacently positioned before and after including Component 104.

The left frame leading portion of left photovoltaic module 103 and the left frame leading portion of right photovoltaic module 104 it is highly consistent, pass through Before the left frame leading portion of the left frame leading portion of left photovoltaic module 103 and right photovoltaic module 104 is fixed on by one preceding briquetting 105 On crossbeam 101, the left pressure tongue of preceding briquetting 105 is pressed on left frame leading portion and the right side of left photovoltaic module 103 with right pressure tongue respectively At the top of the left frame leading portion of photovoltaic module 104, a preceding clamping screw 106 passes through preceding briquetting 105, under preceding clamping screw 106 Section is worn to front beam 101, is locked the position of preceding clamping screw 106 by a preceding locking nut.

The left frame back segment of left photovoltaic module 103 highly less than the left frame back segment height of right photovoltaic module 104, passes through one Briquetting 107 and a briquetting adjusting part are by the left frame back segment of left photovoltaic module 103 and right photovoltaic module 104 after individual Left frame back segment is fixed on rear cross beam 102.The briquetting adjusting part includes fixed seat and the lifting seat being flexibly connected, fixed The bottom of seat is held on the top of rear cross beam 102, and lifting seat is movably connected in fixed seat and can risen in height Drop, fixed seat stretch out a left frame pressure tongue to the left, and left frame pressure tongue to the height of fixed seat bottom is equal to left photovoltaic module 103 Left frame height, left frame pressure tongue is used at the top of the left frame back segment of pressed left photovoltaic module 103, is provided with lifting seat One briquetting seat and a frame seat, the height of the briquetting seat top surface to frame seat top surface are equal to right photovoltaic module 104 The height of left frame, briquetting seat are used for the left pressure tongue for shelving rear briquetting 107, and frame seat is used for the left side for shelving right photovoltaic module 104 Frame.The left pressure tongue of briquetting 107 and right pressure tongue are pressed at the top of the briquetting seat of lifting seat and right photovoltaic module 104 respectively afterwards At the top of left frame back segment, briquetting adjusting part is additionally provided with and passes through lifting seat and the mounting hole of fixed seat from top to bottom, one Through rear briquetting 107 and the mounting hole of briquetting adjusting part, the hypomere of rear clamping screw 108 is worn to be put clamping screw 108 afterwards In rear cross beam 102, the position of rear clamping screw 108 is locked by locking nut after one.

Referring to Fig. 1 ~ Fig. 4, briquetting adjusting part is bidirectional helical type briquetting adjusting part 3

Bidirectional helical type briquetting adjusting part 3 is used for connection fixing base including fixed seat 3.1, lifting seat 3.2 and one 3.1 and the lift adjustment bolt 3.3 of lifting seat 3.2, the fixed seat 3.1 includes the fixed seat body 3.1.1 being vertically arranged, fixed The seat body 3.1.1 upper left corner is provided with lower crosspiece 3.1.2 to the left, and lower crosspiece 3.1.2 forms left frame pressure tongue and is used to push down At the top of the left frame of left photovoltaic module 103, fixed seat body 3.1.1 bottom is provided with bottom plate 3.1.3 to the right, fixed seat sheet Body 3.1.1 middle hypomere is provided with lower sleeve 3.1.4, and internal thread is provided with lower sleeve 3.1.4, fixed seat body 3.1.1's Top left section is vertically provided with former and later two left step breach 3.1.5, and the lifting seat 3.2 includes the lifting seat sheet being vertically arranged Body 3.2.1, the lifting seat body 3.2.1 lower right corner are provided with upper crosspiece 3.2.2 to the right, and upper crosspiece 3.2.2 forms frame seat For shelving the left side frame bottom of right photovoltaic module 104, top plate 3.2.3 to the left is provided with the top of lifting seat body 3.2.1, Top plate 3.2.3 forms the left pressure tongue that briquetting seat is used to shelve rear briquetting 107, and lifting seat 3.2.1 stage casing is provided with upper bush 3.2.4, internal thread is provided with upper bush 3.2.4, fixed seat body 3.1.1 top right section is vertically provided with former and later two right sides Left section of step breach 3.2.5, top plate 3.2.3 is provided with former and later two right-angle notchs 3.2.6, the lift adjustment bolt 3.3 Epimere outer surface and hypomere outer surface are respectively arranged with external screw thread and lower external screw thread, upper external screw thread externally threaded spiral shell with Line is in opposite direction, and upper external screw thread is consistent with upper bush 3.2.4 internal thread direction, the interior spiral shell of lower external screw thread and lower sleeve 3.1.4 Line direction is consistent, and the square hole 3.3.1 for being internally provided with up/down perforation of lift adjustment bolt 3.3, the hypomere of lift adjustment bolt 3.3 is set It is placed in lower sleeve 3.1.4, the epimere of lift adjustment bolt 3.3 is arranged in upper bush 3.2.4, along square hole 3.3.1 upper and lower To fixed seat 3.1 with unobstructed on lifting seat 3.2, square hole 3.3.1 above-below direction forms unimpeded mounting hole.Wherein lower horizontal stroke Section 3.1.2 bottom surface is equal to the height of the left frame of left photovoltaic module 103, upper horizontal stroke to the height between bottom plate 3.1.3 bottom surface The height of section 3.2.2 top surface to top plate 3.2.3 top surface is equal to the height of the left frame of right photovoltaic module 104.

In use, the left frame back segment of left photovoltaic module 103 is held on rear cross beam 102, then fixed seat 3.1 is put It is placed on rear cross beam 102, bottom plate 3.1.3 is held on rear cross beam 102 so that push down left light in lower crosspiece 3.1.2 left end bottom surface At the top of the left frame back segment for lying prostrate component 103, square pole regulation lift adjustment bolt 3.3 is inserted in square hole 3.3.1, is risen so as to adjust Seat 3.2 is dropped to proper height, then the left frame back segment of right photovoltaic module 104 is held on upper crosspiece 3.2.2, rear briquetting 107 left pressure tongue pushes down top plate 3.2.3 top surface, and the right pressure tongue of rear briquetting 107 pushes down the left frame back segment of right photovoltaic module, its In after the sinking section of briquetting 107 pass through corner after two right-angle notch 3.2.6 and be embedded in two left step breach 3.1.5 and two In right step breach 3.2.5, clamping screw 108 passes through rear briquetting 107 and double L-shaped screw-type briquetting adjusting part 2 after one Mounting hole, the hypomere of rear clamping screw 108, which is worn, to be postponed in crossbeam 102, by locking nut after one by rear clamping screw 108 position locking.

Claims (1)

1. a kind of bidirectional helical type gradient installing solar photovoltaic component difference in height mounting structure, it is characterised in that it includes rear horizontal Beam（102）And the left photovoltaic module that left and right is adjacently positioned（103）With right photovoltaic module（104）, left photovoltaic module（103）The right side Frame back segment is highly less than right photovoltaic module（104）Left frame back segment height, pass through briquetting after one（107）An and pressure Block adjusting part is by left photovoltaic module（103）Left frame back segment and right photovoltaic module（104）Left frame back segment be fixed on Rear cross beam（102）On, briquetting adjusting part is bidirectional helical type briquetting adjusting part（3）, bidirectional helical type briquetting adjusting part （3）Including fixed seat（3.1）, lifting seat（3.2）And one be used for connection fixing base（3.1）And lifting seat（3.2）Lifting Regulation cock（3.3）, the fixed seat（3.1）Including the fixed seat body being vertically arranged（3.1.1）, fixed seat body（3.1.1） The upper left corner be provided with lower crosspiece to the left（3.1.2）, fixed seat body（3.1.1）Bottom be provided with bottom plate to the right （3.1.3）, fixed seat body（3.1.1）Middle hypomere be provided with lower sleeve（3.1.4）, lower sleeve（3.1.4）In being inside provided with Screw thread, the lifting seat（3.2）Including the lifting seat body being vertically arranged（3.2.1）, lifting seat body（3.2.1）The lower right corner It is provided with upper crosspiece to the right（3.2.2）, lifting seat body（3.2.1）Top be provided with top plate to the left（3.2.3）, lifting Seat（3.2.1）Stage casing be provided with upper bush（3.2.4）, upper bush（3.2.4）Inside it is provided with internal thread, the lift adjustment bolt （3.3）Epimere outer surface and hypomere outer surface be respectively arranged with external screw thread and lower external screw thread, upper external screw thread and lower outer The hand of spiral of screw thread is on the contrary, upper external screw thread and upper bush（3.2.4）Internal thread direction it is consistent, lower external screw thread and lower sleeve （3.1.4）Internal thread direction it is consistent, lift adjustment bolt（3.3）The square hole for being internally provided with up/down perforation（3.3.1）, lifting Regulation cock（3.3）Hypomere be arranged at lower sleeve（3.1.4）It is interior, lift adjustment bolt（3.3）Epimere be arranged at upper bush （3.2.4）It is interior, along square hole（3.3.1）Above-below direction fixed seat（3.1）With lifting seat（3.2）Upper unobstructed, square hole （3.3.1）Above-below direction form unimpeded mounting hole, left photovoltaic module（103）Left frame back segment be held on rear cross beam （102）On, fixed seat（3.1）It is positioned over rear cross beam（102）On, bottom plate（3.1.3）It is held on rear cross beam（102）On, lower crosspiece （3.1.2）Left end bottom surface push down left photovoltaic module（103）Left frame back segment at the top of, right photovoltaic module（104）Left frame Back segment is held on upper crosspiece（3.2.2）On, rear briquetting（107）Left pressure tongue push down top plate（3.2.3）Top surface, rear briquetting （107）Right pressure tongue push down the left frame back segment of right photovoltaic module, clamping screw after one（108）Through rear briquetting（107）With And double L-shaped screw-type briquetting adjusting part（2）Mounting hole, rear clamping screw（108）Hypomere wear and postpone crossbeam（102） It is interior, by locking nut after one by rear clamping screw（108）Position locking；

Lower crosspiece（3.1.2）Bottom surface to bottom plate（3.1.3）Bottom surface between height be equal to left photovoltaic module（103）The right The height of frame, upper crosspiece（3.2.2）Top surface to top plate（3.2.3）The height of top surface be equal to right photovoltaic module（104）A left side The height of frame；

Fixed seat body（3.1.1）Top left section be vertically provided with former and later two left step breach（3.1.5）, fixed seat body （3.1.1）Top right section be vertically provided with former and later two right step breach（3.2.5）, top plate（3.2.3）Left section be provided with Former and later two right-angle notchs（3.2.6）, rear briquetting（107）Sinking section pass through two right-angle notchs（3.2.6）Corner is embedded in afterwards Two left step breach（3.1.5）And two right step breach（3.2.5）It is interior.