CN206196555U - Flexible agricultural photovoltaic generating system - Google Patents

Abstract

The utility model is related to a kind of flexible agricultural photovoltaic generating system, including support frame, flexible support, photovoltaic module, micro- sparge pipe, fixture, water pump and energy storage device, support frame includes multiple rows of column and multiple support beams, often the top of row's column has set up support beam, the two ends of flexible support connect with adjacent support beam respectively, photovoltaic module is connected with flexible support, micro- sparge pipe is connected by fixture with support beam, and flexible support is alternately disposed in support beam with micro- sparge pipe, water pump is connected with micro- sparge pipe, energy storage device is electrically connected with photovoltaic module and water pump respectively.Above-mentioned flexible agricultural photovoltaic generating system has to be easy to construction and installation, place strong adaptability, saves water resource and generated energy beneficial effect high.

Description

Flexible agricultural photovoltaic generating system

Technical field

The utility model is related to field of photovoltaic technology, more particularly to a kind of flexible agricultural photovoltaic generating system.

Background technology

Photovoltaic generating system is a kind of electricity generation system for converting solar energy into electrical energy.Photovoltaic generating system is often set up The more spacious region such as farmland.In recent years, photovoltaic agricultural greenhouse is developed, photovoltaic power generation apparatus is arranged on agricultural greenhouse On, to save land resource.

The support of conventional photovoltaic agricultural greenhouse is generally using rigid materials such as girder steel, steel columns, and work progress is cumbersome and to building Make site and require height, because the limitation of rigid frame construction, greenhouse bracket is shorter, and agricultural machinery equipment cannot be passed in and out, influence agriculture The production efficiency of crop.Traditional agriculture photovoltaic system generally irrigates the crops of plantation, it is necessary to dig irrigation canals and ditches using flood irrigation formula, Work progress complexity and waste water resource.Additionally, photovoltaic module surface easily deposits dust, dust deposit can excessively influence photovoltaic The photoelectric transformation efficiency of component, and the rising of summer photovoltaic module temperature, cause system voltage to reduce, and influence system generates electricity and imitates Rate, reduction generated energy.

Utility model content

Based on this, it is necessary to which the work progress that exists for traditional agriculture photovoltaic system is complicated, limitation is big and generated energy A kind of low problem, there is provided flexible agricultural photovoltaic generating system.

A kind of flexible agricultural photovoltaic generating system, including support frame, flexible support, photovoltaic module, micro- sparge pipe, fixation Part, water pump and energy storage device, support frame include multiple rows of column and multiple support beams, and the top for often arranging column has set up support Beam, the two ends of flexible support connect with adjacent support beam respectively, and photovoltaic module is connected with flexible support, and micro- sparge pipe is by solid Determine part to be connected with support beam, and flexible support is alternately disposed in support beam with micro- sparge pipe, water pump is connected with micro- sparge pipe, storage Energy device is electrically connected with photovoltaic module and water pump respectively.

Above-mentioned flexible agricultural photovoltaic generating system, the support of multigroup column and multiple support beam groups into photovoltaic generating system Frame, flexible support is erected between adjacent support beam, and photovoltaic module is arranged on flexible support.Flexible support is to the construction place of production Requirement it is relatively low, various complicated landform can be applied to.Additionally, the free degree of flexible support is higher, it is easily installed, can makes Column sets up higher, and large-scale agricultural machinery equipment can be passed in and out, and not interfere with the production efficiency of crop.It is laid between photovoltaic module micro- Sparge pipe, can solve the Irrigation Problems of crop, it is not necessary to dig irrigation canals and ditches, and the hydraulic pressure of micro- sparge pipe can be adjusted as needed Section, can also clean to photovoltaic module surface, and can reduce the temperature of component, the voltage of lifting system, so as to improve The overall generating efficiency and generated energy of system.Therefore, above-mentioned flexible agricultural photovoltaic generating system has and is easy to construction and installation, place Strong adaptability, saving water resource and generated energy beneficial effect high.

Wherein in one embodiment, water pump is photovoltaic water pump.

Wherein in one embodiment, fixture includes the first fixed part, the second fixed part, supporting part and locking member, branch The two ends of support part are connected with the first fixed part and the second fixed part respectively, and the first fixed part is opened up with the end of the second fixed part There is screwed hole, the external screw thread coordinated with screwed hole is offered on locking member, through hole is offered in support beam, micro- sparge pipe is positioned over Between support beam and supporting part, locking member is connected through through hole with the first fixed part and the second fixed part.

Wherein in one embodiment, fixture includes the first fixed part, the second fixed part, supporting part and screw, support The screwed hole with screw fit is offered on beam, connecting portion is provided with the first fixed part and the second fixed part, on connecting portion Through hole is offered, micro- sparge pipe is positioned between support beam and supporting part, after screw inserts screwed hole through through hole, by fixture It is fixed in support beam.

Wherein in one embodiment, multiple micro- hole for water sprayings are offered on micro- sparge pipe.

Wherein in one embodiment, photovoltaic module is the two-sided photovoltaic module of double glass.

Wherein in one embodiment, also including biconcave lens, biconcave lens is connected with flexible support, photovoltaic module with it is double Concavees lens are alternately disposed on flexible support.

Wherein in one embodiment, also including fastener, photovoltaic module passes through fastener and flexible support with biconcave lens Connection.

Wherein in one embodiment, photovoltaic module is the two-sided photovoltaic module of double glass.

Wherein in one embodiment, also including biconcave lens, biconcave lens is connected with flexible support, photovoltaic module with it is double Concavees lens are alternately disposed on flexible support.

Wherein in one embodiment, also including wind-driven generator, wind-driven generator is installed on column, wind-driven generator Electrically connected with energy storage device.

Wherein in one embodiment, also including trapping lamp, trapping lamp is connected with support beam, and trapping lamp is filled with energy storage Put connection.

Brief description of the drawings

Fig. 1 is the structure top view of flexible agricultural photovoltaic generating system in one embodiment；

Fig. 2 is the structural front view of the flexibility agricultural photovoltaic generating system shown in Fig. 1；

Fig. 3 is the structural side view of the flexibility agricultural photovoltaic generating system shown in Fig. 1；

Fig. 4 is the structural representation of fixture in one embodiment；

Fig. 5 is the structural representation of fixture in another embodiment.

Reference：10th, support frame；20th, flexible support；30th, photovoltaic module；40th, micro- sparge pipe；50th, water pump；60th, store up Can device；70th, wind-driven generator；80th, trapping lamp；90th, light compensating lamp；101st, column；102nd, support beam；400th, fixture；410、 First fixed part；420th, the second fixed part；430th, supporting part.

Specific embodiment

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and implementation Example, is further elaborated to the utility model.It should be appreciated that specific embodiment described herein is only used to explain The utility model, is not used to limit the utility model.

Please refer to Fig. 1 to Fig. 3, the flexibility agricultural photovoltaic generating system of an implementation method includes support frame 10, flexibility Support 20, photovoltaic module 30, micro- sparge pipe 40, fixture 400, water pump 50 and energy storage device 60, support frame 10 include multiple rows of vertical Post 101 and multiple support beams 102, the top for often arranging column 101 have set up support beam 102, the two ends difference of flexible support 20 Connected with adjacent support beam 102, photovoltaic module 30 is connected with flexible support 20, micro- sparge pipe 40 is by fixture 400 and branch Support beam 102 is connected, and flexible support 20 is alternately disposed in support beam 102 with micro- sparge pipe 40, water pump 50 and micro- sparge pipe 40 Connection, energy storage device 60 is electrically connected with photovoltaic module 30 and water pump 50 respectively.

As shown in Figure 1 to Figure 3, support frame 10 includes multiple rows of column 101 and multiple support beams 102, between each row's column 101 Equidistantly it be arranged in parallel, and spaced set between each column 101 in each row, the distance between each row's column 101 is equal to The length of flexible support 20, multiple support beams 102 are connected with each column 101 in corresponding each row.The support of adjacent two row Multiple flexible supports 20 are provided between beam 102, the support beam 102 of the two ends of each flexible support 20 respectively with adjacent two row connects Connect, equidistantly be arranged in parallel between flexible support 20.

Specifically, support beam 102 is welded to connect with column 101, support beam 102 can be a length and row's column Spacing between adjacent upright posts 101 in 101 overall length identical long support beams 102, or many length and each row The short support beam 102 of identical.When support beam 102 is using long support beam 102, support beam 102 is stood with each during mounting bracket Post 101 is welded to connect.When support beam 102 is using short support beam 102, first two support beams 102 are welded during mounting bracket Connect in succession, then welded with column 101.

In another embodiment, photovoltaic generating system also includes fastener, and flexible support 20 is by fastener and support Beam 102 is connected.Specifically, fastener is screw, the two ends in support beam 102 with flexible support 20 offer screwed hole, screw Screwed hole on through flexible support 20 and in support beam 102 makes hawser be firmly connected with support beam 102.Need explanation It is that fastener is not limited to screw, as long as flexible support 20 can be made firmly to be connected with support beam 102.

In one embodiment, flexible support 20 is hawser, and hawser has preferable lifting capacity and flexibility freedom Degree.But it should be recognized that flexible support 20 is not limited to hawser, or other flexible materials in the present embodiment. Traditional rigid support is replaced using flexible support 20, can be with the cost of material-saving.Flexible support 20 is wanted to construction site Ask compared to than relatively low, the place that can be applied is more wide in range, goes for various complicated landform between rigidity.Using Flexible support 20 can make column 101 set higher, and the spacing span between column 101 is larger, so that the quantity of column 101 Reduce, reduce the destructiveness to soil.

In one embodiment, the height of column 101 is more than 8 meters, and horizontal spacing and the longitudinal pitch of column 101 are 15 It is more than rice.Wherein, the horizontal spacing of support is the spacing between each row's column 101, and the length with flexible support 20 is identical, support Longitudinal pitch be spacing in every row between each column 101.Preferably, the height of column 101 is horizontal between 8 to 15 meters Spacing and longitudinal pitch are between 15 to 20 meters.Because it is higher that the height of column 101 is set, the lower section of flexible support 20 can be made Space be fully used, flexible agricultural photovoltaic generating system can be entered for large-scale agricultural tool, not influence agricultural tool Mechanical work, it is ensured that production efficiency.

The quantity of photovoltaic module 30 is multiple, and multiple photovoltaic modulies 30 form the array of photovoltaic module 30 and are arranged on flexible support On 20.Photovoltaic module 30 is the TRT of system, and photovoltaic module 30 can be incorporated into the power networks can also Independent Power Generation.When photovoltaic group When part 30 is incorporated into the power networks, photovoltaic module 30 is connected with power network, and its electricity for issuing is transported on power network by inversion boosting.Specifically , energy storage device 80 can be battery, and battery can be using lead-acid battery, Ni-MH battery, nickel-cadmium cell or lithium battery etc..

In one embodiment, photovoltaic module 30 is the two-sided photovoltaic module of double glass.The front and back of photovoltaic module 30 is equal Using solar energy photovoltaic material, the two-sided irradiation that can all receive sunshine, lifting assembly receives the area of illumination.In light direct projection One side, the two-sided photovoltaic modulies of double glass receive illumination and convert light energy into electric energy, meanwhile, double two-sided photovoltaic modulies of glass have preferable Dim light effect, illumination cannot direct projection one side, it is possible to use scattering light generated electricity, the generating effect of module backside is suitable In component positive 20% to 30%, i.e., compared to the photovoltaic module 30 of one side for, double two-sided photovoltaic modulies of glass can make be Overall generated energy of uniting can improve 20% to 30%.Specifically, double two-sided photovoltaic modulies of glass use crystal silicon solar batteries group Part, crystal silicon solar batteries component is rack-mount, it is not necessary to independent land occupation, has saved land resource.

In one embodiment, above-mentioned flexible agricultural photovoltaic generating system also includes biconcave lens, biconcave lens and flexibility Support 20 is connected, and photovoltaic module 30 is alternately disposed on flexible support 20 with biconcave lens.Specifically, biconcave lens can be used Makrolon (Polycarbonate, PC) or polymethyl methacrylate (Polymethyl methacrylate, PMMA) etc. Plastic material, the lighter in weight of plastic material can reduce the carrying of flexible support 20, so that the load-carrying of system frame is reduced, Reduce the usage amount and cost of material.But it should be recognized that biconcave lens can also use other materials, however it is not limited to this reality Apply example.

In one embodiment, photovoltaic module 30 is connected by fastener with biconcave lens with flexible support 20, using button Part connection can avoid the drilling precision not enough overall installation situation of influence on flexible support 20.

The tow sides of biconcave lens are sphere, and the centre of lens is thinner than both sides.The tow sides of biconcave lens are all Light can be reflected, so as to increase the range of refractive of illumination.On the one hand, the illumination that biconcave lens front reflects can promote The positive generated energy of double two-sided photovoltaic modulies of glass, on the other hand, it is two-sided that the refraction light at the biconcave lens back side can improve pair glass again The generated energy at the photovoltaic module back side, makes the overall generated energy of component further be improved, biconcave lens and double glass dual lights Being used in combination for component of volt can be so that the generating efficiency of system integrally lifts 30% or so.Additionally, increasing the same of generated energy When, the refraction light at the lens back side can make above-mentioned photovoltaic generating system with light transmittance higher, it is ensured that the light of system bottom Abundance, enables crop to be normally carried out photosynthesis.

The quantity of photovoltaic module 30 sets more than the quantity of biconcave lens between adjacent biconcave lens in one embodiment It is equipped with multiple photovoltaic modulies 30.On flexible support 20, one piece of biconcave lens, biconcave lens are installed every several piece photovoltaic module 30 Quantity should not be excessive, biconcave lens is set can excessively cause the quantity of photovoltaic module 30 very few, so as to influence system overall Generating efficiency.The quantity and ratio of photovoltaic module 30 and biconcave lens need what is shone according to the generating efficiency and lens on light of component Refraction effect is reasonably set so that the overall generated energy of system reaches maximum.

In one embodiment, flexible agricultural photovoltaic generating system also includes energy storage device 60, energy storage device 60 and photovoltaic Component 30 is connected.Energy storage device 60 is the electrical energy storage device of system, and the TV university part that photovoltaic module 30 is issued is by inversion Boosting etc. is transported on power network, and in storage device, the electricity consumption such as normal lighting for system is used by oneself for sub-fraction storage.Specifically , energy storage device 60 can be battery, and battery can be using lead-acid battery, Ni-MH battery, nickel-cadmium cell or lithium battery etc..

Micro- sparge pipe 40 is connected by fixture 400 with support beam 102, alternately and parallel between micro- sparge pipe 40 and flexibility It is arranged in support beam 102, i.e., is provided with micro- sparge pipe 40 between the adjacent array of photovoltaic module 30.In one embodiment In, as shown in figure 4, fixture 400 includes the first fixed part 410, the second fixed part 420, supporting part 430 and locking member, support The two ends in portion 430 are connected with the first fixed part 410 and the second fixed part 420 respectively, the first fixed part 410 and the second fixed part 420 end offers screwed hole, and the external screw thread coordinated with screwed hole is offered on locking member, is offered in support beam 102 Through hole, micro- sparge pipe 40 is positioned between support beam 102 and supporting part 430, locking member through through hole and the first fixed part 410 and Second fixed part 420 is connected.Specifically, fixture 400 is U-shaped, it is when micro- sparge pipe 40 is installed, micro- sparge pipe 40 is laterally disposed Opened up above or below at the position of through hole in support beam 102, fixture 400 is enclosed within micro- sparge pipe 40, fixture 400 Supporting part 430 contacted with micro- sparge pipe 40, locking member with the first of fixture 400 through consolidating after the through hole in support beam 102 Determine the fixed part 420 of portion 410 and second to lock, so as to micro- sparge pipe 40 is fixed in support beam 102.

In another embodiment, as shown in figure 5, fixture 400 include the first fixed part 410, the second fixed part 420, Supporting part 430 and screw, offer the screwed hole with screw fit, the first fixed part 410 and the second fixed part in support beam 102 Connecting portion is provided with 420, through hole is offered on connecting portion, micro- sparge pipe 40 be positioned over support beam 102 and supporting part 430 it Between, after screw inserts screwed hole through through hole, fixture 400 is fixed in support beam 102.Fixture 400 in this example Difference with the fixture 400 in a upper embodiment is, the first fixed part 410 of the fixture 400 in the present embodiment There is the connecting portion extended to side with the two ends of the second fixed part 420, through hole is offered on connecting portion.Specifically, installing micro- During sparge pipe 40, micro- sparge pipe 40 is placed horizontally in support beam 102 and is opened up above or below at the position of screwed hole, will be solid Determine part 400 to be enclosed within micro- sparge pipe 40, the supporting part 430 of fixture 400 is contacted with micro- sparge pipe 40, screw is fixed through first Connecting portion through hole on the fixed part 420 of portion 410 and second is simultaneously locked after inserting the screwed hole of support beam 102, so as to by micro- water spray Pipe 40 is fixed in support beam 102.

In yet another embodiment, fixture 400 includes the first fixture 400, the second fixture 400, screw and nut, First fixture 400 includes the first supporting part 430, the first fixed part 410 and the second fixed part 420, and the second fixture 400 includes The corresponding position of the second supporting part 430, the 3rd fixed part and the 4th fixed part, the first fixed part 410 and the 3rd fixed part, Two fixed parts 420 are offered with the corresponding position of the 4th fixed part and are connected through hole, the first supporting part 430 and support beam 102 Contact connection, micro- sparge pipe 40 is positioned between the supporting part 430 of support beam 102 and second, and screw passes through the He of the first fixture 400 The connection through hole of the second fixture 400 is simultaneously locked the first fixture 400 with the second fixture 400 with nut.Specifically, at this In embodiment, the first fixture 400 is identical with the structure of fixture 400 in a upper embodiment with the structure of the second fixture 400, When micro- sparge pipe 40 is installed, the first fixture 400 is enclosed within above or below support beam 102, micro- sparge pipe 40 be positioned over The below or above of the corresponding position of the first fixture 400, the second fixture 400 is enclosed within micro- sparge pipe 40, and second fixes After part 400 aligns with the connection through hole of the first fixture 400, by screw through the first fixture 400 and the second fixture 400 Nut check is used after through hole, so as to micro- sparge pipe 40 is fixed in support beam 102.

In another embodiment, fixture 400 also include fixing screws, the present embodiment from unlike a upper embodiment, The center position of the first supporting part 430 offers through hole in the present embodiment, and screwed hole, first are offered in support beam 102 Support part 430 is connected by fixing screws with support beam 102, and the first fixture 400 is fixedly connected with support beam 102, can be made solid Determine carrying of the part 400 to micro- sparge pipe 40 more to consolidate.

Multiple micro- hole for water sprayings are offered on micro- sparge pipe 40, micro- sparge pipe 40 is connected with water pump 50, water pump respectively with photovoltaic Component 30 and energy storage device 60 are connected.Photovoltaic module 30 is that water pump 50 provides electrical source of power with energy storage device 60, works as energy storage device When the power supply stored in 60 is sufficient, energy storage device 60 is powered to water pump 50, when the power supply stored in energy storage device 60 is not enough, can Directly water pump 50 is powered with being generated electricity by photovoltaic module 30.Sprayed in the suction pump of water pump 50 sparge pipe 40 in a subtle way and from micro- hole for water spraying Go out.In one embodiment, system also includes controller, work and water of the controller according to agricultural needs automatically controlled water pump 50 The size of the hydraulic pressure of pump 50, so that when controlling to spray the height and size of current to meet to crop irrigation simultaneously and to photovoltaic module 30 demand when being cleaned.In one embodiment, water pump 50 is photovoltaic water pump, and photovoltaic water pump can realize self-energizing.

When irrigating crop, controller control current increase is increased irrigation efficiency, and without ditching flood irrigation, Reduces cost is simultaneously reduced water consumption.When being cleaned to photovoltaic module 30, the hydraulic pressure of controller controlling pump water 50 makes micro- hole for water spraying The height and suitable size of current are sprayed in cleaning assembly.The floating ash that cleaning removes assembly surface is carried out to photovoltaic module 30, is increased Plus absorption of the component to illumination, meanwhile, the temperature of assembly surface can be reduced, lifting assembly output voltage can integrally significantly Lifting system efficiency, improves generated energy.

As shown in Fig. 2 in one embodiment, above-mentioned flexible agricultural photovoltaic generating system also includes multiple light compensating lamps 90, Light compensating lamp 90 is arranged on the back side of solar photovoltaic assembly 30 and is connected with flexible support 20, and light compensating lamp 90 connects with energy storage device 60 Connect, energy storage device 60 is that light compensating lamp 90 provides electric energy.Specifically, specifically, light compensating lamp 90 can be by coupling hook and flexibility Support 20 is connected, and coupling hook one end is connected with light compensating lamp 90, and the other end is provided with hook, and hook is mounted with flexible support 20 and connected Connect.Light compensating lamp 90 can use LED.Light compensating lamp 90 can be adjusted daytime to light quality, and can provide crop production in the evening Illumination needed for high, extends light application time, additionally it is possible to play a part of to adjust temperature, helps to extend the florescence of flowering plant, can To promote plant growth, increase yield.

In one embodiment, above-mentioned flexible agricultural photovoltaic generating system also includes trapping lamp 80, trapping lamp 80 and support Beam 102 is connected, and trapping lamp 80 is connected with energy storage device 60.Trapping lamp 80 can be connected by coupling hook with flexible support 20 Connect, coupling hook one end is connected with trapping lamp 80, the other end is provided with hook, hook is connected with the mounting of flexible support 20.Desinsection Lamp 80 according to the characteristics of insect phototaxis, using the effective attracting and destroying insects of special spectrum scope, and can trap area coverage greatly, Several mu to tens of mu of scope can be covered, so as to reduce pest and disease damage, the use for even preventing agricultural chemicals is reduced, article is made in lifting Matter, improves food security.

In one embodiment, flexible agricultural photovoltaic generating system also includes wind-driven generator 70, and wind-driven generator 70 is pacified Loaded on column 101, wind-driven generator 70 is electrically connected with energy storage device 60.Wind-driven generator 70 is arranged on column 101, due to Column 101 is higher, and wind-driven generator 70 is arranged on column 101 to be helped to capture wind energy.Wind-driven generator 70 can be captured Wind power generation, is the auxiliary generation device of above-mentioned flexible agricultural photovoltaic generating system, and the electricity that wind-driven generator 70 is issued will storage Exist in energy storage device 60, be supplied to light compensating lamp 90, trapping lamp 80 and photovoltaic water pump 50 to use through inversion conversion, wind-driven generator 70 can be that light compensating lamp 90, trapping lamp 80 and photovoltaic water pump 50 provide electric energy when the generated energy of cloudy photovoltaic module 30 is relatively low, real Existing system power is generated power for their own use, and reduces the consumption to extra power.Meanwhile, system is just deposited in 70 generation deficiency of wind-driven generator The generating of photovoltaic module 30 is stored up, the consumption that system generates electricity to photovoltaic module 30 can be to greatest extent reduced, is favorably improved and is System generated energy.

The requirement in 20 pairs of construction places of production of flexible support of above-mentioned flexible agricultural photovoltaic generating system is relatively low, can be applied to each Plant complicated landform.Additionally, the free degree of flexible support 20 is higher, it is easily installed, column 101 can be made to set up higher, large-scale agriculture Machine equipment can be passed in and out, and not interfere with the production efficiency of crop.Micro- sparge pipe 40 is laid between photovoltaic module 30, can be solved The Irrigation Problems of crop, it is not necessary to dig irrigation canals and ditches, the hydraulic pressure of micro- sparge pipe 40 can be adjusted as needed, also can be to photovoltaic The surface of component 30 is cleaned, and can reduce the temperature of component, the voltage of lifting system, so as to improve the overall hair of system Electrical efficiency and generated energy.Therefore, above-mentioned flexible agricultural photovoltaic generating system has and is easy to construction and installation, place strong adaptability, saves Save water resource and generated energy beneficial effect high.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to Protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of flexible agricultural photovoltaic generating system, it is characterised in that including support frame, flexible support, photovoltaic module, micro- water spray Pipe, fixture, water pump and energy storage device, support frame as described above include multiple rows of column and multiple support beams, often arrange the top of the column Portion has set up the support beam, and the two ends of the flexible support connect with the adjacent support beam respectively, the photovoltaic group Part is connected with the flexible support, and micro- sparge pipe is connected by fixture with the support beam, and the flexible support with Micro- sparge pipe is alternately disposed in the support beam, and the water pump is connected with micro- sparge pipe, the energy storage device point Do not electrically connected with the photovoltaic module and the water pump.

2. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that the water pump is photovoltaic water pump.

3. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that the fixture includes that first consolidates Determine portion, the second fixed part, supporting part and locking member, the two ends of the supporting part are fixed with first fixed part and second respectively Portion connects, and first fixed part offers screwed hole, offered on the locking member with the end of second fixed part The external screw thread coordinated with the screwed hole, offers through hole in the support beam, micro- sparge pipe is positioned over the support beam Between the supporting part, the locking member is connected through the through hole with first fixed part and second fixed part.

4. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that the fixture includes that first consolidates Determine portion, the second fixed part, supporting part and screw, the screwed hole with the screw fit, described are offered in the support beam Connecting portion is provided with one fixed part and second fixed part, through hole, micro- sparge pipe are offered on the connecting portion It is positioned between the support beam and the supporting part, after the screw inserts the screwed hole through the through hole, will be described Fixture is fixed in the support beam.

5. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that offered on micro- sparge pipe Multiple micro- hole for water sprayings.

6. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that the photovoltaic module is that double glass are double Face photovoltaic module.

7. flexible agricultural photovoltaic generating system according to claim 6, it is characterised in that described also including biconcave lens Biconcave lens is connected with the flexible support, and the photovoltaic module is alternately disposed at the flexible support with the biconcave lens On.

8. flexible agricultural photovoltaic generating system according to claim 7, it is characterised in that also including fastener, the photovoltaic Component is connected by the fastener with the biconcave lens with the flexible support.

9. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that also including wind-driven generator, institute State wind-driven generator to be installed on the column, the wind-driven generator is electrically connected with the energy storage device.

10. flexible agricultural photovoltaic generating system according to claim 1, it is characterised in that described to kill also including trapping lamp Worm lamp is connected with the support beam, and the trapping lamp is connected with the energy storage device.