CN202035338U - Cloud-end green-energy intelligent big-arch shelter greenhouse control system - Google Patents

Abstract

The utility model provides a cloud-end green-energy intelligent big-arch shelter greenhouse control system, which is provided with two symmetric main brackets, wherein the near-upper end edge of each main bracket is respectively combined and passes through one end of two arc pipe beams, one ends of the arc pipe beams stretch out of the main brackets, a plurality of small crossbeams for strengthening the structural strength are arranged between the two arc pipe beams, at least a louver grid is arranged between each arc pipe beam and each main bracket, at the same time a gap between the two arc pipe beams are covered by a film, a gap between the two main brackets and a gap between the lower edges of the two arc pipe beams are movably combined with a steel plate to form a first shelter frame unit, and in addition, a water collecting groove is arranged on the circumference of the first shelter frame unit; and one or more first shelter frame units are transversely combined to form a big-arched shelter greenhouse. Due to the adoption of the cloud-end green-energy intelligent big-arch shelter greenhouse control system, the building speed can be improved, and the field construction cost can be reduced.

Description

The intelligent plastic greenhouse control system of the green energy in high in the clouds

Technical field

The utility model is can be applicable to the fruit tree in the regional greenhouse in subtropics (sweltering heat in summer) or temperate zone (winter severe cold) or the plantation production of vegetables in response to the intelligent plastic greenhouse control system of the green energy in high in the clouds of different latitude (temperate zone ~ subtropics), season and wind direction about a kind of.

Background technology

Plant is the indispensable food of people, and weather, water source and soil then are the essential condition of left and right sides plant growing, and for allowing the growth of plant not be subjected to climatic influences, each area utilizes chamber planting, because of the transition of weather, and influences the growth of plant with prevention.

The accepted practice in monsoon climate of medium latitudes area, please join Fig. 1, the greenhouse A that tradition is commonly used, mainly be to be provided with highly higher high concrete wall A1 in this limit of windward side, periphery then is provided with highly lower low concrete wall A2, high concrete wall A1 centre also is provided with heat-insulation layer A11, be provided with double insulation A21 inside and outside the low concrete wall A2, and be preset with a gateway A5 on the concrete walls of periphery, again, the end face of high concrete wall A1 is provided with steel canopy A3, and this steel canopy A3 also extends to the top of low concrete wall A2, is coated with plastic film A4 again on the steel canopy A3 simultaneously; By this, to form a greenhouse A.

Though the high concrete wall A1 of this kind greenhouse A can stop the invasion and attack of cold wind winter, build and need expend the long period, and to summer, because of greenhouse A there is no air inlet/outlet is set, so can only use the one-sided ventilation of gateway A5, be directed at the temperature overheating in the greenhouse A, plant can't grow.

And the accepted practice in monsoon climate area, subtropics, as shown in Figure 2, the greenhouse B in monsoon climate area, subtropics mainly is built into the canopy body by hot-dip zinc pipe B1, in the external plastic film B2 that covers of canopy, and be provided with several inlet and outlets B3, do not window because the roof of greenhouse B has in the plastic film B2 of periphery, hot-air in the greenhouse B is assembled greenhouse B top layer and is discharged nowhere, indoor degree is increased, must set up the mechanically ventilated system in addition, and increase energy loss, raising maintenance cost.

The utility model content

So the utility model people is because above-mentioned disappearance, phase can provide a kind of intelligent plastic greenhouse control system of the green energy in high in the clouds that improves the construction rate, reduces the site operation cost, be think of, the design team's system of grinding with great concentration, consumption is popular to be used to provide, and desires to grind the utility model motivation of wound for the utility model.

Main purpose of the present utility model, provide a kind of can be in response to different latitude, season and the wind direction adjustment intelligent plastic greenhouse control system of the green energy in high in the clouds of assembly partly.

Secondary objective of the present utility model is providing a kind of intelligent plastic greenhouse control system of the green energy in high in the clouds of building speed, reducing the site operation cost that improves.

Another purpose of the present utility model can laterally, vertically be opened up the intelligent plastic greenhouse control system of the green energy in the high in the clouds that increases according to environmental factor elasticity providing a kind of.

For reaching above-mentioned purpose, the intelligent plastic greenhouse control system of the green energy in high in the clouds of the present utility model, be provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two curved pipe beams and combines, make a distal process of curved pipe beam stretch out main support, the needle beam that has several Zhi Zengjia structural strengths between the two curved pipe beams, be provided with at least one blinds grid again between the two curved pipe beams and between two main supports in addition, cover between the two curved pipe beams and with film simultaneously, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the first frame unit, in addition, the peripheral region of the first frame unit is provided with the groove that catchments; By this, see through a plurality of first frame unit to be combined into a plastic greenhouse.

For reaching above-mentioned purpose, the intelligent plastic greenhouse control system of the green energy in high in the clouds of the present utility model comprises: the aforesaid first frame unit; And the second frame unit, this second frame unit is for being arranged at the first frame unit periphery, it is provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two little curved pipe beams and combines, make a distal process of little curved pipe beam stretch out main support, the other end then is incorporated on the main support of the first frame unit, the needle beam that has several Zhi Zengjia structural strengths between the two little curved pipe beams, cover between the two little curved pipe beams and with film again, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the second frame unit; By this, see through a plurality of first and second frame unit to be combined into a plastic greenhouse.

For reaching above-mentioned purpose, the intelligent plastic greenhouse control system of the green energy in high in the clouds of the present utility model, comprise: the first frame unit, be provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two curved pipe beams and combines, make a distal process of curved pipe beam stretch out main support, the needle beam that has several Zhi Zengjia structural strengths between the two curved pipe beams, be provided with at least one blinds grid again between the two curved pipe beams and between two main supports in addition, cover between the two curved pipe beams and with film simultaneously, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the first frame unit, in addition, the peripheral region of the first frame unit is provided with the groove that catchments; And the second frame unit, for being connected with the first frame unit, it is provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two little curved pipe beams and combines, make a distal process of little curved pipe beam stretch out main support, the other end then is incorporated on the main support of the first frame unit, the needle beam that has several Zhi Zengjia structural strengths between the two little curved pipe beams, cover between the two little curved pipe beams and with film again, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the second frame unit; By this, see through first and second frame unit vertically to be combined into a plastic greenhouse.

Optionally, utilize a plurality of first and second frame unit laterally, vertically to be combined into a plastic greenhouse.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, this main support are established and are L type post, and this L type capital face is provided with a Plug Division, and the extended element for the tool kink of pegging graft is combined with a steel plate and a blinds grid on this extended element.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, the middle section of this main support respectively is combined with the arc diagonal brace that one one end combines with the curved pipe beam, and further is provided with the groove that catchments between arc diagonal brace and the main support.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, the blinds grid of combination is incorporated into the middle lower section or the middle epimere place of two main supports between the main support of this first frame unit.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, this film is solar energy film glass or plastic film.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, the elongated end that two curved pipe beams of the first frame unit pass main support is provided with the groove that catchments, the end in addition of two curved pipe beams then hangs down and places ground, be combined with two blinds grids on the two curved pipe beams, one blinds grid is incorporated into curved pipe Liang Jindiduanchu, the top of this blinds grid and the confluce of film are provided with the groove that catchments, and another blinds grid is vertically integrated in the proximal portion of curved pipe beam.

Optionally, the intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, the end in addition of two curved pipe beams of one frame unit hangs down and places ground, be combined with two blinds grids on the two curved pipe beams, one blinds grid is incorporated into curved pipe Liang Jindiduanchu, the top of this blinds grid and the confluce of film are provided with the groove that catchments, and another blinds grid is vertically integrated in the top end of curved pipe beam.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, this steel plate are combined type curtain metal foil or two-way steel plate with baking paint.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds further is provided with side window or side door on the steel plate of the little curved pipe beam lower edge institute combination of the two curved pipe beams of this first frame unit and the second frame unit.

Optionally, the intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds further is provided with side window, side door or side window and side door on the steel plate of the two little curved pipe beam lower edge institutes combination of the two curved pipe beams of this first frame unit and the second frame unit.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, when a plurality of first frame unit transverses make up, the elongated end that two curved pipe beams of this first frame unit pass two main supports further respectively is combined with shape Guan Liang always, the other end of two straight shape Guan Liang hangs down and to place ground, between the two straight shape Guan Liang and be provided with windbreak or the deep bead that stops wind.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, when several second frame unit of the first frame unit matching vertically make up, the elongated end that two little curved pipe beams of the second frame unit of least significant end pass two main supports further respectively is combined with shape Guan Liang always, the other end of two straight shape Guan Liang hangs down and places ground, is provided with windbreak or the deep bead that stops wind between the two straight shape Guan Liang.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds, needle beam set on the two little curved pipe beams of the two curved pipe beams of the first frame unit and the second frame unit is further combined with the blast cap that has a guiding wind to enter, this blast cap is provided with two air ports that are reverse setting, and tuyere bottom is extended with body simultaneously.

The intelligent plastic greenhouse control system of the green energy in aforesaid high in the clouds is adjusted environmental control system by a plurality of first frame unit inner cooperated with LED light filling of plastic greenhouse of forming and the plastic greenhouse of being made up of a plurality of first and second frame unit system, honest and clean, the little infiltrating irrigation system of sunshade volume, mist cooling system, CO2 Adjustment System and SENSOR induction system to form automation.

By the utility model, can improve and build speed, reduction site operation cost.

Description of drawings

Fig. 1 is the greenhouse profile in monsoon climate of medium latitudes area;

Fig. 2 is the greenhouse profile in monsoon climate area, subtropics;

Fig. 3 is the stereo appearance figure of the utility model first embodiment;

Fig. 4 A is located at the wind direction trend graph of monsoon climate area, subtropics when the summer for Fig. 3;

Fig. 4 B is located at the wind direction trend graph of monsoon climate area, subtropics when the winter for Fig. 3;

Fig. 5 is the Another Application illustration of the utility model first embodiment;

Fig. 6 A is located at the wind direction trend graph of monsoon climate of medium latitudes area when the summer for Fig. 5;

Fig. 6 B is located at the wind direction trend graph of monsoon climate of medium latitudes area when the winter for Fig. 5;

Fig. 7 is the horizontal combination schematic diagram of the utility model first embodiment;

Fig. 8 A is the stereo appearance figure of the utility model second embodiment;

Fig. 8 B is the side diagrammatic sketch of the utility model second embodiment;

Fig. 9 is vertical combination schematic diagram of the utility model second embodiment;

Figure 10 is that laterally reaching of the utility model second embodiment vertically made up schematic diagram;

The cut-away view that Figure 11 cooperates other system to use for the utility model embodiment.

[major part conventional letter]

1, the first frame unit

11, main support

111, extension

112, arc diagonal brace upwards

12, curved pipe beam

121, extension

122, front end needle beam

123, tail end needle beam

13, film

14, blinds grid

141, blinds grid

142, blinds grid

143, blinds grid

15, steel plate

151, steel plate

152, steel plate

16, the groove that catchments

161, the groove that catchments

17, blast cap

171, the big mouth of pipe

172, the little mouth of pipe

173, body

174, wind direction rudder

18, side window

19, side door

2, the second frame unit

21, main support

212, arc diagonal brace upwards

22, curved pipe beam

221, extension

222, needle beam

23, film

24, straight shape Guan Liang

25, steel plate

261, the groove that catchments

3, LED light filling system

4, little infiltrating irrigation system

5, mist cooling system

6, CO2 Adjustment System

7, SENSOR induction system

Embodiment

Please join Fig. 3, the intelligent plastic greenhouse control system of the green energy in high in the clouds of the present utility model, be provided with the first frame unit 1, mainly be provided with two horizontal and slightly be the main support 11 of L type, two main supports, 11 top ends are provided with interface and peg graft for an extension 111 with kink, on two extensions 111 and be provided with two blinds grids 142,143 and steel plate 15, two blinds grids 142 and 143 and be and be oppositely arranged, again, little space between two blinds grids 142 and 143 also covers with steel plate, between two main supports 11 and be combined with steel plate 151 and a blinds grid 14 (please with ginseng Fig. 5), this blinds grid 14 is located at the middle lower section of main support 11, simultaneously two main supports 11 each link an arc diagonal brace 112 upwards in the middle section, upwards arc diagonal brace 112 and the confluce of main support 11 are provided with the groove 161 (please cooperate simultaneously and join accompanying drawing 4A) that catchments in addition, the place near to the upper end that two curved pipe beams, 12 1 ends run through main support 11 forms an extension 121, this extension 121 also links with the upwards arc diagonal brace 112 of main support 11, simultaneously extension 121 ora terminalis are combined with the groove 16 that catchments, moreover, 12 equidistant needle beams that increase structural strength that are provided with of two curved pipe beams, on two curved pipe beams, 12 subaerial first needle beam 122 again in conjunction with catchment a groove 16 and a blinds grid 141, other two curved pipe beams 12 are covered to tail end needle beam 123 and the extension 121 by front end needle beam 122 and are combined with film 13, and tail end needle beam 123 also combines with holding in addition of blinds grid 142, this film 13 is solar energy film glass or plastic film, the film 13 of present embodiment is a solar energy film glass, at last, utilize steel plate 152 to be sealed to form exterior wall by the lower edge of two side curved pipe beams 12 again, these steel plate 15 appropriate locations also can be provided with window 18 and door-plate 19.

Be located at monsoon climate area, subtropics as the utility model, film 13 is arranged on the wet monsoon windward side, please join Fig. 4 A, with blinds grid 14,141,142 and 143 open, blinds grid 141,142 is that the wind-force fan inlet is (when calm, blinds grid 141 is the gravity fan inlet), blinds grid 14,143 is that wind-force vented exhaust mouth is (when calm, blinds grid 143 is the gravity fan inlet), blinds grid 143 is a gravity vented exhaust mouth, steel plate 15 guiding wind directions on film 13 and the extension 111 are toward outlet, and hot-air is discharged from blinds grid 143 in the acceleration greenhouse, impels external air from blinds grid 14,141 mend, and then improve indoor gravity ventilation efficient, increase the ventilation frequency, blinds grid 14,141 is relative, and low layer wind-force drafting efficiency is improved.

During winter, please join Fig. 4 B, blinds grid 141,142 and 143 is opened, blinds grid 14 is closed, blinds grid 141 is the gravity fan inlet, the extension 121 of curved pipe beam 12 and steel plate 151 guiding wind directions are toward opening, and hot-air is discharged from blinds grid 142 in the acceleration greenhouse, impels external air to mend dorsad from blinds grid 141, and then raising indoor air-changing efficient, also do not allow cold air directly pour in the greenhouse, cause indoor temperature to descend rapidly, influence plant growth.

Please join Fig. 5, be Another Application illustration of the present utility model, its with Fig. 2 different be in, blinds grid 14 on the main support 11 places the epimere place of main support 11, be provided with a blast cap 17 between two curved pipe beams, 12 tail end needle beams 123 and the main support 11, on this blast cap 17 and have the two-way air port of the big mouth of pipe 171 and tubule mouth 172, and the big mouth of pipe 171 upper ends and be provided with a wind direction rudder 174, blast cap 17 bottoms and extend a scavenge trunk 173 downwards simultaneously; When this structure is located at the monsoon climate of medium latitudes area, film 13 is arranged on the wet monsoon windward side, please join Fig. 6 A, blinds grid 14 and 141 is opened, blinds grid 141 is that the wind-force fan inlet is (when calm, be the gravity fan inlet), blinds grid 14 is a wind-force vented exhaust mouth, wind direction rudder 174 the blowing Buddhist of wind-engaging on the blast cap 17 and rotating, make tubule mouth 172 forever in the face of the wind direction source, the big mouth of pipe 171 is forever back to the wind direction source, and film 13 guiding wind directions 172 enter from the air port, and the wind that enters also descends along scavenge trunk 173, make air-flow be delivered to the bottom, greenhouse, blinds grid 141 and 14 is arranged at the diagonal angle in space simultaneously, reduces the air-flow dead angle, and then improves indoor air-changing efficient.

During winter, please join Fig. 6 B, blinds grid 14 and 141 is closed, and the big or small mouth of pipe 171 of blast cap 17 and 172 is the inlet and outlet mouth of gravity ventilation, the hot-air preheating that cold air has been discharged by desire in the greenhouse 1 in entering greenhouse 1 time, and steel plate 151 has stopped the cold wind from winter.

Please join Fig. 7, during summer, for the increase front face area, when improving ventilation rate, desirable a plurality of first frame unit 1, present embodiment for get 3 first frame unit 1 with about side by side, and two curved pipe beams 12 of the first frame unit 1 of central authorities need not to link steel plate 152, and only the curved pipe beam 12 in 1 outside, the first frame unit in two outsides links with steel plate 152, to form the high greenhouse structure of ventilation rate.

As Fig. 8 A, shown in Fig. 8 B, second embodiment of the present utility model, comprise the first frame unit 1 and the second frame unit 2, the first frame unit 1 is identical with first embodiment, so it is not superfluous, it is two horizontal and slightly be the main support 21 of L type that this second frame unit 2 is provided with, two main supports, 21 top ends are provided with interface 211, the place near to the upper end that two curved pipe beams, 22 1 ends run through main support 21 forms an extension 221, this extension 221 is connected with the pipe of shape always beam 24 again, can be provided with windbreak or the deep bead that stops wind between the two straight shape pipe beams 24, in addition the main support 11 of the free end of end and the first frame unit 1 combines in the middle section, and be provided with the groove 261 that catchments in addition with the confluce of main support 11,22 equidistant needle beams 222 that increase structural strength that are provided with of two curved pipe beams, be provided with a blast cap 17 between terminal needle beam 222 and the main support 21, on this blast cap 17 and have a two-way air port of the big mouth of pipe 171 and tubule mouth 172, tubule mouth 172 bottoms also are extended with a body 173, the simultaneously big mouth of pipe 171 is provided with wind direction rudder 174, two curved pipe beams 22 cover from front to back and are combined with film 23, this film 23 is solar energy film glass or plastic film, the film 23 of present embodiment is a solar energy film glass, and the lower edge of two side curved pipe beams 22 rises to form exterior wall with steel plate 25 envelopes again, and this steel plate 25 is in appropriate location and can be provided with window 18 and door-plate 19.

Again, the main support 11 of the utility model first frame unit 1 and the second frame unit 2,21 inclination angle is for getting as calculated, please join Fig. 8 again, the utility model is an example to be located at Harbin, Harbin is that north latitude 44o 04 ' is to 46o height of the sun at noon in 40 ' summer 68.5 degree, winter solar noon sun high angle 21.5 degree, two curved pipe beams 12 of the first frame unit 1 and the second frame unit 2, film 13 on 22,23 is towards the south orientation setting, while film 13,23 can increase the sunshine time for solar energy film glass removes, and can increase the effective angle at sunshine, make summer, winter, power supply was stable, while main support 11,21 angle of inclination is the angle at parallel sunshine in summer, so the main support 11 of the first frame unit 1 does not influence the sunshine amount of the second frame unit 2, rear.

Please join Fig. 9, get one first frame unit 1 and several second frame unit 2, present embodiment is to get 2 second frame unit 2 to arrange in end to end mode, wherein 11 of two main supports of the first frame unit 1 need not to link steel plate 151, the place ahead of the first frame unit 1 is located in the second frame unit 2, the free end of two curved pipe beams 22 of this second frame unit 2 then links with the main support 11 of the first frame unit 1, the first frame unit 1 is combined with the second frame unit 2, the free end of two curved pipe beams 22 of another second frame unit 2 links with the main support 21 of the second frame unit 2 again, this extension 221 is connected with the pipe of shape always beam 24 again, can be provided with windbreak or the deep bead that stops wind between the two straight shape pipe beams 24, last again in the periphery of the first frame unit 1 and 2 second frame unit 2 in conjunction with steel plate 152,25, by this, reduce temperate zone front face area in winter to finish, and meet the greenhouse structure of greenhouse ventilation rate.

Please join Figure 10 again, use a plurality of first frames 1 and second frame 2,, be combined into a greenhouse that meets required size according to the mode of Fig. 7.Again, the utility model also can cooperate other system to use together, please join Figure 11, the greenhouse that the utility model is formed is cooperated with LED light filling system 3, little infiltrating irrigation system 4, mist cooling system 5, CO2 Adjustment System 6 and SENSOR induction system 7 simultaneously, make the greenhouse become the control system of automatic adjustment environment, make crop under the state of the best, grow.

Only the above only be preferred embodiment of the present utility model, when can not be in order to the enforceable scope of qualification the utility model, all personages who knows this industry variation and the modification that obviously can do, all should be considered as not departing from flesh and blood of the present utility model.

Claims (17)

1. intelligent plastic greenhouse control system of the green energy in high in the clouds, it is characterized in that, be provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two curved pipe beams and combines, make a distal process of curved pipe beam stretch out main support, the needle beam that has several Zhi Zengjia structural strengths between the two curved pipe beams, be provided with at least one blinds grid again between the two curved pipe beams and between two main supports in addition, cover between the two curved pipe beams and with film simultaneously, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the first frame unit, in addition, the peripheral region of the first frame unit is provided with the groove that catchments; By this, utilize single the first frame unit or a plurality of first frame unit transverse to be combined into a plastic greenhouse.

2. the intelligent plastic greenhouse control system of the green energy in high in the clouds is characterized in that, comprises:

The first frame unit, be provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two curved pipe beams and combines, make a distal process of curved pipe beam stretch out main support, the needle beam that has several Zhi Zengjia structural strengths between the two curved pipe beams, be provided with at least one blinds grid again between the two curved pipe beams and between two main supports in addition, cover between the two curved pipe beams and with film simultaneously, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the first frame unit, in addition, the peripheral region of the first frame unit is provided with the groove that catchments; And

The second frame unit, for being connected with the first frame unit, it is provided with the main support that two symmetries install, the nearly upper end edge of two main supports respectively wears with an end of two little curved pipe beams and combines, make a distal process of little curved pipe beam stretch out main support, the other end then is incorporated on the main support of the first frame unit, the needle beam that has several Zhi Zengjia structural strengths between the two little curved pipe beams, cover between the two little curved pipe beams and with film again, the space of space between this two main support and two curved pipe beam lower edges then activity is combined with steel plate, to constitute the second frame unit; By this, see through first and second frame unit vertically to be combined into a plastic greenhouse.

3. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 2 is characterized in that, utilizes a plurality of first and second frame unit laterally, vertically to be combined into a plastic greenhouse.

4. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2 is characterized in that, main support system establishes and is L type post, and this L type capital face is provided with a Plug Division, for the extended element of the tool kink of pegging graft.

5. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 4 is characterized in that, is combined with an at least one steel plate and a blinds grid on this extended element.

6. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2, it is characterized in that, the middle section of this main support respectively is combined with an arc diagonal brace that upwards links with curved pipe, and further is provided with the groove that catchments between this arc diagonal brace and the main support.

7. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2 is characterized in that, the blinds grid of combination between the main support of the first frame unit is incorporated into the middle lower section or the middle epimere place of two main supports.

8. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2 is characterized in that this film is solar energy film glass or plastic film.

9. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2, it is characterized in that, the end in addition of two curved pipe beams of one frame unit hangs down and places ground, be combined with two blinds grids on the two curved pipe beams, one blinds grid is incorporated into curved pipe Liang Jindiduanchu, the top of this blinds grid and the confluce of film are provided with the groove that catchments, and another blinds grid is vertically integrated in the top end of curved pipe beam.

10. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2 is characterized in that this steel plate is combined type curtain metal exterior wall or two-way steel plate with baking paint.

11. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2, it is characterized in that, further be provided with side window, side door or side window and side door on the steel plate of the two little curved pipe beam lower edge institutes combination of the two curved pipe beams of this first frame unit and the second frame unit.

12. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 2, it is characterized in that, the elongated end that two curved pipe beams of the first frame unit pass two main supports further respectively is combined with shape Guan Liang always, the other end of two straight shape Guan Liang hangs down and places ground, is provided with windbreak or the deep bead that stops wind between the two straight shape Guan Liang.

13. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 2, it is characterized in that, the elongated end that two little curved pipe beams of the second frame unit pass two main supports further respectively is combined with shape Guan Liang always, the other end of two straight shape Guan Liang hangs down and places ground, is provided with windbreak or the deep bead that stops wind between the two straight shape Guan Liang.

14. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2, it is characterized in that, two little curved pipe beams of the two curved pipe beams of the first frame unit and the second frame unit, needle beam set on it is further combined with the blast cap that has a guiding wind to enter.

15. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 14 is characterized in that, blast cap is provided with two air ports that are reverse setting.

16. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 14 is characterized in that, the two set tuyere bottom that are reverse setting of blast cap are extended with body.

17. the intelligent plastic greenhouse control system of the green energy in high in the clouds according to claim 1 and 2, it is characterized in that, by a plurality of first frame unit plastic greenhouse of forming and the plastic greenhouse of forming by a plurality of first and second frame unit, be that cooperated with LED light filling system, honest and clean, the little infiltrating irrigation system of sunshade volume, mist cooling system, CO2 Adjustment System and SENSOR induction system are adjusted environmental control system to form automation.

Images