CN106301162A - Fixed type photovoltaic support two is across cant beam optimization placement method - Google Patents

Abstract

The invention discloses a kind of fixed type photovoltaic support two across cant beam optimization placement method, step is as follows: obtain described photovoltaic panel length (L) and width (B), and described first purlin is to distance l of corresponding photovoltaic panel outermost end₃；Determine cant beam length L_b, L_b=2 (L l₃), calculate l₃/L_bNumerical value；According to l₃/L_bNumerical value, table look-up acquisition l₁/L_bAnd l₂/L_bNumerical value, wherein l₁It is the described forward and backward distance being hinged to end, described cant beam corresponding one end, described l below described cant beam₂It it is the distance of described forward and backward described second purlin being hinged to corresponding side below described cant beam；According to the l checked in₁/L_bAnd l₂/L_bDetermine l₁And l₂.The present invention is by adjusting cant beam support position and cant beam cantilever span, and in making cant beam, moment of flexure is minimum, thus reaches the optimized design in cant beam cross section, reduces steel using amount, reduces cost.

Description

Fixed type photovoltaic support two is across cant beam optimization placement method

Technical field

The present invention relates to technical field of photovoltaic power generation, particularly to a kind of fixed type photovoltaic support two across cant beam preferred arrangement Method.

Background technology

Photovoltaic generation is the focus of generation of electricity by new energy in this year, and by the end of the end of the year 2015, China adds up photovoltaic plant installation Capacity 43GW, wherein newly-increased 15GW in 2015, rate of increase reaches 40%.China's photovoltaic gross generation in 2015 is 3.92 × 10¹⁰Kw h, accounts for the 0.7% of whole nation gross generation, and in recent years, because reasons such as hazes, China supports development in policy energetically New forms of energy, the most therefore photovoltaic generation gets most of the attention, it is contemplated that within 2016, photovoltaic generation total installation of generating capacity is up to 63GW, reaches to the year two thousand twenty 150GW。

As the supporting construction of photovoltaic electrification component, photovoltaic bracket typically can according to the inclination angle of photovoltaic panel whether every day along with Solar variability is divided into two kinds: fixed support and tracking support.Photovoltaic module every day on fixed support is not along with the height of the sun And be changed；And follow the tracks of photovoltaic module angle on support and adjust along with the height of the sun to obtain the more sun every day Energy.It is, in general, that follow the tracks of support can obtain higher generated energy, but construction cost and maintenance cost are higher；And fixed Although the frame efficiency of light energy utilization is more relatively low, but supporting structure is simple, and low cost is installed and safeguards the most more convenient, being China's mesh Before widely used rack form, wherein extensive with optimum angle of incidence fixed type photovoltaic stent applications, its schematic diagram such as Fig. 1 institute Show.

Conventional optimum angle of incidence fixed bracket has single column support and double column support, Fig. 2 and Fig. 3 gives both The side view of photovoltaic bracket, in two kinds of supports, cant beam is all with column and be supported for bearing, all can be approximately two and encorbelment continuously across band Beam, standoff distance and the cantilever span of cant beam are very big to Moment Influence in cant beam, and in cant beam, moment of flexure is to control cant beam cross section Main internal force factor.

But, the most in the design, the determination of cant beam bearing (i.e. vertical rod and support) position and cantilever span is with bigger Randomness, in cant beam there is excessive situation in moment of flexure, causes waste, preferably determines cant beam support position and length of encorbelmenting by analysis Degree, in making cant beam, moment of flexure minimizes, and cross section is optimum.

Summary of the invention

Because the drawbacks described above of prior art, the present invention provides a kind of fixed type photovoltaic support two across cant beam preferred arrangement Method, it is achieved one of purpose be by adjusting cant beam support position and cant beam cantilever span, in making cant beam, moment of flexure is minimum, thus Reach the purpose of the optimized design in cant beam cross section.

For achieving the above object, the invention provides a kind of fixed type photovoltaic support two across cant beam optimization placement method, institute Stating cant beam and be arranged above with 2 pieces of photovoltaic panel, described photovoltaic panel length direction is parallel with described cant beam length direction, from described cant beam two End is inwardly symmetrical arranged the first purlin and the second purlin successively, described cant beam nationality by described first purlin and described second purlin and Described photovoltaic panel connects, and is connected to described first purlin below every piece of described photovoltaic panel and the second purlin about described photovoltaic panel Center is mutually symmetrical with, and it is hinged that described cant beam middle position below is provided with middle part, the both sides difference that described cant beam lower middle part is hinged It is symmetrical arranged forward and backward hinged, described forward and backward hinged between described first purlin and described second purlin of corresponding side.

Conventional photovoltaic panel is generally rectangular slab, and length and width are respectively L and B, for known quantity.Photovoltaic panel is fabric swatch on support Mode has two kinds, and wherein the long limit of photovoltaic panel (L) arranges (being commonly called as " vertical setting of types fabric swatch ") along cant beam, 2 pieces of photovoltaic panel of general layout, by In described first purlin and described second purlin symmetrical be connected to below corresponding photovoltaic panel, the long limit of photovoltaic panel is from described first Purlin and described second purlin are chosen, and choose a length of l₃, l₃General between 0.1m～0.5m.

For vertical setting of types fabric swatch, described method for arranging step is as follows:

A, obtain described photovoltaic panel length L, and described first purlin is to the distance of corresponding photovoltaic panel outermost end

l₃；

B, determine cant beam length L_b, L_b=2 (L-l₃), calculate l₃/L_bNumerical value；

C, according to l₃/L_bNumerical value, table look-up acquisition l₁/L_bAnd l₂/L_bNumerical value,

Wherein l₁It is the described forward and backward distance being hinged to end, described cant beam corresponding one end below described cant beam,

Described l₂It it is the distance of described forward and backward described second purlin being hinged to corresponding side below described cant beam；

The l that D, basis check in₁/L_bAnd l₂/L_b, calculate l by following equation₁And l₂Value,

For vertical setting of types fabric swatch, may determine that different l by calculating₃/L_bL optimal under numerical value₁/L_bAnd l₂/L_bValue, its Result is listed in table.During application, work as l₃/L_bAfter Gei Ding, l can be determined by tabling look-up₁/L_b、l₂/L_bAnd now in cant beam Moment M (M=Fl₁, F is that purlin transmits concentration power), this moment is l₃/L_bMinimum moment in cant beam after given.

A kind of fixed type photovoltaic support two is across cant beam optimization placement method, and described cant beam is arranged above with 4 pieces of photovoltaic panel, described Photovoltaic panel width is parallel with described cant beam length direction, and the length of described cant beam is equal to 4 pieces of photovoltaic panel width sums, institute State cant beam and be provided with the width of 5 purlins the most uniform, the distance between every two blocks of purlins and described photovoltaic panel Spend identical, described purlin is symmetrical arranged the first purlin and the second purlin successively from described cant beam inward at both ends, in described cant beam Meta installs Intermediate purlin, and described cant beam nationality is by described first purlin, described second purlin, described Intermediate purlin and described light Volt plate connects, and it is hinged that described cant beam middle position below is provided with middle part, and the hinged both sides of described cant beam lower middle part are respectively symmetrically Arrange forward and backward hinged, described forward and backward hinged between described first purlin and described second purlin of corresponding side.

Conventional photovoltaic panel is generally rectangular slab, and length and width are respectively L and B, for known quantity.Photovoltaic panel is fabric swatch on support Mode has two kinds, and wherein photovoltaic panel minor face (B) arranges (being commonly called as " horizontally-arranged fabric swatch ") along cant beam, purlin arrange align with edges of boards so that Connecting in photovoltaic panel and purlin, now photovoltaic panel is without encorbelmenting.

For horizontally-arranged fabric swatch, described method for arranging step is as follows:

A, obtain described photovoltaic panel width B, obtain the second purlin to distance l of described Intermediate purlin₃=B；

B, determine cant beam length L_b, L_b=4B, obtains l₃/L_b=0.25；

C, by analyze, l₁/L_bAnd l₂/L_bNumerical value be taken as the most respectively: l₁/L_b=0.0976, l₂/L_b=0.1524.

Wherein l₁It is the described forward and backward distance being hinged to end, described cant beam corresponding one end below described cant beam,

Described l₂It it is the distance of described forward and backward described second purlin being hinged to corresponding side below described cant beam；

D, the l be given according to previous step₁/L_bAnd l₂/L_b, calculate l by following equation₁And l₂Value,

For horizontally-arranged fabric swatch, l₃/L_b=0.25, now corresponding optimal placement is: l₁/L_b=0.0976 and l₂/L_b= 0.1524, i.e. l₁=0.3904B, l₂=0.6096B, l₃=B.

The present invention applies said structure just, by adjusting cant beam support position and segment length of encorbelmenting, makes cant beam inflection Square minimizes, such that it is able to reduce cant beam sectional dimension, reduces steel using amount, reduces cost.

Preferably, the described forward and backward hinged column support that connects respectively, distance d=between two described column supports 2cosα(l₂+l₃), wherein α is the angle of inclination of described cant beam.

Preferably, described first purlin is to distance l of corresponding photovoltaic panel outermost end₃Less than 0.5m.

Preferably, in described step C, when in table without corresponding l₃/L_bDuring value, adjacent values is used to use linear interpolation Method determines l₁/L_bAnd l₂/L_b。

Beneficial effects of the present invention:

The present invention is by adjusting cant beam support position and cant beam cantilever span, and in making cant beam, moment of flexure is minimum, thus reaches oblique The optimized design of beam section, reduces steel using amount, reduces cost.

Below with reference to accompanying drawing, the technique effect of design, concrete structure and the generation of the present invention is described further, with It is fully understood from the purpose of the present invention, feature and effect.

Accompanying drawing explanation

Fig. 1 is illustrated that the overall structure schematic diagram of the present invention.

Fig. 2 is illustrated that the preferred arrangement cant beam of the present invention view in single column support structure.

Fig. 3 is illustrated that the preferred arrangement cant beam of the present invention view in double column support structures.

Fig. 4 is illustrated that the structural representation of the present invention a kind of vertical setting of types fabric swatch embodiment.

Fig. 5 is illustrated that the structural representation of a kind of horizontally-arranged fabric swatch embodiment of the present invention.

Detailed description of the invention

As a example by cant beam bearing when vertical setting of types fabric swatch and horizontally-arranged fabric swatch is arranged the most respectively, provide concrete enforcement Method: support uses double column support, and photovoltaic panel length and width are respectively 2m × 1m, photovoltaic panel cantilever span l₃=0.27m, photovoltaic panel Inclination alpha=30 °.

Embodiment 1:

As shown in Figures 2 to 4, the present invention is directed to vertical setting of types fabric swatch, described cant beam 3 is arranged above with two pieces of photovoltaic panel 1, described light Volt plate 1 length direction is parallel with described cant beam 3 length direction, is symmetrical arranged the first purlin 2 successively from described cant beam 3 inward at both ends With the second purlin 2 ', described cant beam 3 nationality is connected with described photovoltaic panel 1 by described first purlin 2 and described second purlin 2 ', connects Described first purlin 2 and the second purlin 2 ' below photovoltaic panel every piece described 1 are mutually symmetrical with about described photovoltaic panel 1 center, Described cant beam 3 middle position below is provided with middle part hinged 4, and the both sides of described cant beam 3 lower middle part hinged 4 are respectively symmetrically setting Forward and backward hinged 5,5 ', described forward and backward hinged 5,5 ' described first purlins 2 being positioned at corresponding side and described second purlin 2 ' it Between.

The first step: vertical setting of types fabric swatch, the distance of the first purlin to corresponding photovoltaic panel outermost end: cantilever span l₃=0.27m, light The volt long L=2m of plate；

Second step: determine cant beam length L_b

The a length of L of cant beam_b=2 (L-l₃)=3.46

3rd step: according to l₃/L_bDetermine l₁/L_bAnd l₂/L_b

l₃/L_b=0.078, table look-up, without respective value, in table, given value is respectively l₃/L_b=0.07143 and l₃/L_b= 0.08824, use linear interpolation method to determine l respectively₁/L_bAnd l₂/L_b:

l₁/L_b=0.03717+ (0.04288-0.03717) (0.078-0.07143)/(0.08824-0.07143)= 0.0394

l₂/L_b=0.5-l₁/L_b-l₃/L_b=0.3826

I.e. l₁=0.0394L_b=136mm, l₂=0.38264L_b=1.324mm

4th step: determine before and after's column spacing

Column spacing d=2cos α (l before and after double column supports₂+l₃)=2cos30 (1.324+0.27)=2.76m, front and back Column midpoint and cant beam midpoint are positioned on same vertical curve.

Table

l1/Lb	l2/Lb	l3/Lb	M
				0.00821	0.47897	0.01282	Fl1
0.01613	0.45755	0.02632	Fl1
				0.02368	0.43578	0.04054	Fl1
0.03072	0.41372	0.05556	0Fl1
				0.03717	0.39140	0.07143	Fl1
0.04288	0.36888	0.08824	Fl1
				0.04778	0.34616	0.10606	Fl1
0.05172	0.32328	0.125	Fl1
				0.05461	0.30023	0.14516	Fl1
0.05633	0.27700	0.16667	Fl1
				0.05685	0.25350	0.18966	Fl1
0.05606	0.22966	0.21429	Fl1
				0.05292	0.19708	0.25	Fl1

Embodiment 2:

As shown in Fig. 2, Fig. 3, Fig. 5, the present invention is directed to horizontally-arranged fabric swatch, described cant beam 3 is arranged above with four pieces of photovoltaic panel 1, institute State photovoltaic panel 1 width parallel with described cant beam 3 length direction, and the length of described cant beam 3 is equal to 4 pieces of photovoltaic panel 1 width Sum, described in state cant beam 3 and be provided with 5 blocks of purlins the most uniform, the distance between every two blocks of purlins and described light The width of volt plate 1 is identical, is symmetrical arranged the first purlin 2 and the second purlin successively from described cant beam 3 inward at both ends in described purlin 2 ', described cant beam 3 centre position arranges Intermediate purlin 2 ", described cant beam 3 nationality by described first purlin 2, described second purlin 2 ', Described Intermediate purlin 2 " it is connected with described photovoltaic panel 1, described cant beam 3 middle position below is provided with middle part hinged 4, described cant beam 3 The both sides of lower middle part hinged 4 are respectively symmetrically and arrange forward and backward hinged 5,5 ', described forward and backward hinged 5,5 ' and be positioned at corresponding side Between described first purlin 2 and described second purlin 2 '.

Arranging 4 pieces of photovoltaic panel for vertical setting of types, optimization cant beam support position determines relatively simple, photovoltaic panel width B=1m, this Time Fig. 4 in optimum size be respectively as follows:

l₁=0.3904B=0.39m, l₂=0.6096B=0.61m, l₃=B=1m

Column spacing d=2cos α (l front and back₂+l₃)=2cos30 ° (0.61+1)=2.79m

The preferred embodiment of the present invention described in detail above.Should be appreciated that those of ordinary skill in the art without Need creative work just can make many modifications and variations according to the design of the present invention.Therefore, all technology in the art Personnel are available by logical analysis, reasoning, or a limited experiment the most on the basis of existing technology Technical scheme, all should be in the protection domain being defined in the patent claims.

Claims (5)

1. a fixed type photovoltaic support two is across cant beam optimization placement method, it is characterised in that described cant beam is arranged above with two pieces Photovoltaic panel, described photovoltaic panel length direction is parallel with described cant beam length direction, sets from described cant beam inward at both ends symmetry successively Putting the first purlin and the second purlin, described cant beam nationality is connected with described photovoltaic panel by described first purlin and described second purlin, It is connected to described first purlin below every piece of described photovoltaic panel and the second purlin is mutually symmetrical with about described photovoltaic panel center, institute Stating cant beam middle position below, to be provided with middle part hinged, and the hinged both sides of described cant beam lower middle part are respectively symmetrically and arrange forward and backward hinge Connect, described forward and backward hinged between described first purlin and described second purlin of corresponding side, described method for arranging step As follows:

A, obtain described photovoltaic panel length L, and described first purlin is to the distance of corresponding photovoltaic panel outermost end, cantilever span l₃；

B, determine cant beam length L_b, L_b=2 (L-l₃), calculate l₃/L_bNumerical value；

C, according to l₃/L_bNumerical value, table look-up acquisition l₁/L_bAnd l₂/L_bNumerical value,

l₁/L_b l₂/L_b l₃/L_b M 0.00821 0.47897 0.01282 Fl₁ 0.01613 0.45755 0.02632 Fl₁ 0.02368 0.43578 0.04054 Fl₁ 0.03072 0.41372 0.05556 0Fl₁ 0.03717 0.39140 0.07143 Fl₁ 0.04288 0.36888 0.08824 Fl₁ 0.04778 0.34616 0.10606 Fl₁ 0.05172 0.32328 0.125 Fl₁ 0.05461 0.30023 0.14516 Fl₁ 0.05633 0.27700 0.16667 Fl₁ 0.05685 0.25350 0.18966 Fl₁ 0.05606 0.22966 0.21429 Fl₁ 0.05292 0.19708 0.25 Fl₁

Wherein l₁It is the described forward and backward distance being hinged to end, described cant beam corresponding one end below described cant beam,

Described l₂It it is the distance of described forward and backward described second purlin being hinged to corresponding side below described cant beam；

The l that D, basis check in₁/L_bAnd l₂/L_b, calculate l by following equation₁And l₂Value,

$\left\{\begin{array}{c}{L}_b=2(L-l_3)\\ l_2/L_b\\ l_1/L_b\end{array}\right..$

2. a fixed type photovoltaic support two is across cant beam optimization placement method, it is characterised in that described cant beam is arranged above with four pieces Photovoltaic panel, described photovoltaic panel width is parallel with described cant beam length direction, and the length of described cant beam is equal to 4 pieces of photovoltaic panel Width sum, described in state cant beam and be provided with 5 purlins the most uniform, the distance between every two blocks of purlins is with described The width of photovoltaic panel is identical, is symmetrical arranged the first purlin and the second purlin successively from described cant beam inward at both ends in described purlin, Described cant beam centre position arranges Intermediate purlin, and described cant beam nationality is by described first purlin, described second purlin, described middle purlin Bar is connected with described photovoltaic panel, described cant beam middle position below be provided with middle part hinged, described cant beam lower middle part hinged two Side be respectively symmetrically arrange forward and backward hinged, described forward and backward hinged described first purlin being positioned at corresponding side and described second purlin Between, described method for arranging step is as follows:

A, obtain described photovoltaic panel width B, distance l of described second purlin to described Intermediate purlin₃=B；

B, determine cant beam length L_b, L_b=4B, i.e. has: l₃/L_b=0.25；

C, by analyze, l₁/L_bAnd l₂/L_bNumerical value be taken as the most respectively: l₁/L_b=0.0976, l₂/L_b=0.1524.

Wherein l₁It is the described forward and backward distance being hinged to end, described cant beam corresponding one end below described cant beam,

Described l₂It it is the distance of described forward and backward described second purlin being hinged to corresponding side below described cant beam；

D, the l be given according to upper step₁/L_bAnd l₂/L_b, calculate l by following equation₁And l₂Value,

$\left\{\begin{array}{c}{L}_b=2(L-l_3)\\ l_2/L_b\\ l_1/L_b\end{array}\right..$

A kind of fixed type photovoltaic support two the most according to claim 1 and 2 is across cant beam optimization placement method, and its feature exists In, the described forward and backward hinged column support that connects respectively, the distance d=2cos α (l between two described column supports₂+l₃), its Middle α is the angle of inclination of described cant beam.

A kind of fixed type photovoltaic support two the most according to claim 1 is across cant beam optimization placement method, it is characterised in that institute State the first purlin to distance l of corresponding photovoltaic panel outermost end₃Less than 0.5m.

A kind of fixed type photovoltaic support two the most according to claim 1 is across cant beam optimization placement method, it is characterised in that institute State in step C, when in table without corresponding l₃/L_bDuring value, adjacent values is used to use linear interpolation method to determine l₁/L_bAnd l₂/ L_b。