CN206611894U - Twin shaft photovoltaic apparatus and greenhouse environment control system - Google Patents

Abstract

The utility model embodiment provides a kind of twin shaft photovoltaic apparatus and greenhouse environment control system.The twin shaft photovoltaic apparatus includes：Base；The first stepper motor on the base；With the first rotary shaft of first stepper motor；Support frame in first rotary shaft；The second stepper motor installed in one end of remote first rotary shaft of support frame as described above；Photovoltaic panel is installed in the second rotary shaft being connected with second stepper motor, second rotary shaft, wherein：First stepper motor controls support frame as described above to rotate to drive the photovoltaic panel to be rotated in a first direction by first rotary shaft, and second stepper motor controls the photovoltaic panel second direction to rotate by second rotary shaft.

Description

Twin shaft photovoltaic apparatus and greenhouse environment control system

Technical field

The utility model is related to regenerative resource and uses field, in particular to a kind of twin shaft photovoltaic apparatus and greenhouse Environmental control system.

Background technology

The outburst of energy crisis and the environment gone from bad to worse make it that develop renewable, non-polluting energy sources is carried energetically by the mankind Advocate.Under the premise of herein, solar energy particularly solar energy power generating is worldwide highly valued to obtain rapidly Development.However, because the sunrise of the sun is to the Orientation differences of sunset, causing fixed photovoltaic panel of the prior art or photovoltaic panel Can not be with best angular acceptance solar energy in the way of receiving solar energy along rotary shaft vertical direction rotation.In addition, agriculture Industry greenhouse breaches traditional crop plantation and limited by factors such as season, environment, weathers, there is great meaning to agricultural production Justice.But current China is managed more than greenhouse by artificial experience, and automaticity is not high, and this mode production efficiency is relatively low, Be not suitable for process of Industrial Agriculture production, and it is higher to the competency profiling of grower.

Utility model content

In view of this, the purpose of the utility model embodiment is to provide a kind of twin shaft photovoltaic apparatus and greenhouse flower System.

A kind of twin shaft photovoltaic apparatus that the utility model embodiment is provided, the twin shaft photovoltaic apparatus includes：

Base；

The first stepper motor on the base；

With the first rotary shaft of first stepper motor；

Support frame in first rotary shaft；

The second stepper motor installed in one end of remote first rotary shaft of support frame as described above；

Photovoltaic panel is installed in the second rotary shaft being connected with second stepper motor, second rotary shaft, wherein：

First stepper motor controls support frame as described above to rotate to drive the photovoltaic panel by first rotary shaft It is rotated in a first direction, second stepper motor controls the photovoltaic panel second direction to rotate by second rotary shaft.

Preferably, the side that the base is contacted with support frame as described above is provided with the annular of accommodating support frame as described above one end Groove, and the end of support frame as described above can move around the annular groove.

Preferably, in addition to：Controller and multiple photo resistance, the multiple photo resistance electrically connect with the controller Connect, the multiple photo resistance is arranged on the diverse location in the photovoltaic panel, the photo resistance is strong by the light detected Degree sends the controller to；

The controller is electrically connected with first stepper motor and the second stepper motor, and according to the light intensity Control first stepper motor and the second stepper motor to move, and then drive the photovoltaic panel motion.

The utility model embodiment also provides a kind of greenhouse environment control system, and the greenhouse environment control system includes upper Twin shaft photovoltaic apparatus, greenhouse environment controller, humidity detector, humidity control apparatus, the CO stated₂Detection means, CO₂Regulation Device, illumination detection means and light adjusting device；

The twin shaft photovoltaic apparatus be used for the greenhouse environment controller, humidity detector, humidity control apparatus, CO₂Detection means, CO₂Adjusting means, illumination detection means and light adjusting device are powered；

The greenhouse environment controller respectively with the humidity detector, humidity control apparatus, CO₂Detection means, CO₂ Adjusting means, illumination detection means and light adjusting device communication connection；

The humidity value that the greenhouse environment controller is detected according to the humidity detector controls the humidity regulation Humidity in device regulation greenhouse；

The greenhouse environment controller is according to the CO₂The CO that detection means is detected₂Concentration controls the CO₂Regulation dress Put the CO in regulation greenhouse₂Concentration；

The light intensity that the greenhouse environment controller is detected according to the illumination detection means controls the light to adjust Light intensity in regulating device regulation greenhouse.

Preferably, the humidity control apparatus includes：Blower fan and sprayer；

The greenhouse environment controller controls the wind when the humidity that the humidity detector is detected is higher than preset value Machine is opened to reduce the humidity in greenhouse；

The greenhouse environment controller controls the spray when the humidity that the humidity detector is detected is less than preset value Day with fog is opened to increase the humidity in greenhouse.

Preferably, the system also includes temperature-detecting device, and the greenhouse environment controller is in the temperature-detecting device When the temperature of detection is higher than preset value, the blower fan is controlled to open to reduce the temperature in greenhouse.

Preferably, the light adjusting device includes multiple light compensating lamps；

The light intensity that the greenhouse environment controller is detected according to the illumination detection means controls the multiple light filling Lamp is turned on and off.

Preferably, in addition to ventilation equipment, the ventilation equipment are arranged in the greenhouse, the greenhouse environment controller Control the open and close of the ventilation equipment.

Preferably, in addition to warning device, for the data that are received in the greenhouse environment controller not in correspondence Specified number range in when send alarm signal.

Preferably, the system also includes display device, and the display device is used to show what greenhouse environment controller was obtained Data.

Compared with prior art, twin shaft photovoltaic apparatus and greenhouse environment control system of the present utility model, the twin shaft light Volt equipment controls the photovoltaic panel to rotate along different directions more fully to receive illumination by twin shaft, improves and collects the sun The efficiency of energy.In addition, the miscellaneous equipment that the twin shaft photovoltaic apparatus is used in greenhouse environment control system is powered, it can save Non-renewable energy resources.Further, the greenhouse environment control system includes each detection device and adjustment equipment, can adjust temperature Indoor planting environment, so as to realize the control of each fundamental in plant growth environment.

To enable above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and Coordinate appended accompanying drawing, be described in detail below.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme of the utility model embodiment, it will use below required in embodiment Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also To obtain other related accompanying drawings according to these accompanying drawings.

The schematic diagram for the twin shaft photovoltaic apparatus that Fig. 1 provides for the utility model first embodiment.

The structural representation of one angle of the base for the twin shaft photovoltaic apparatus that Fig. 2 provides for the utility model embodiment.

The block diagram for the greenhouse environment control system that Fig. 3 provides for the utility model second embodiment.

The square frame of the humidity control apparatus for the greenhouse environment control system that Fig. 4 provides for the utility model preferred embodiment shows It is intended to.

The square frame of the light adjusting device for the greenhouse environment control system that Fig. 5 provides for the utility model preferred embodiment shows It is intended to.

The block diagram for the greenhouse environment control system that Fig. 6 provides for another preferred embodiment of the utility model.

Icon：100- twin shaft photovoltaic apparatus；110- bases；111- annular grooves；The stepper motors of 120- first；First turn of 130- Moving axis；140- support frames；The stepper motors of 150- second；The rotary shafts of 160- second；170- photovoltaic panels；180- photo resistance；200- Greenhouse environment controller；300- humidity detectors；400- humidity control apparatus；410- blower fans；420- sprayers；500-CO₂ Detection means；600-CO₂Adjusting means；700- illumination detection means；800- light adjusting devices；810- light compensating lamps；900- leads to Wind devices；1000- temperature-detecting devices；1100- warning devices；1200- display devices.

Embodiment

Below in conjunction with accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out clear Chu, it is fully described by, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole realities Apply example.The component for the utility model embodiment being generally described and illustrated herein in the accompanying drawings can be come with a variety of configurations Arrangement and design.Therefore, the detailed description of embodiment of the present utility model below to providing in the accompanying drawings is not intended to limit Claimed scope of the present utility model, but it is merely representative of selected embodiment of the present utility model.Based on the utility model Embodiment, the every other embodiment that those skilled in the art are obtained on the premise of creative work is not made, all Belong to the scope of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then it further need not be defined and explained in subsequent accompanying drawing.Meanwhile, it is new in this practicality In the description of type, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that indicating or implying relatively important Property.

, it is necessary to explanation in description of the present utility model, the orientation of instruction such as term " on ", " under ", " interior ", " outer " or Position relationship is or the side that the utility model product is usually visited when using based on orientation shown in the drawings or position relationship Position or position relationship, are for only for ease of description the utility model and simplify description, rather than indicate or imply signified device Or element there must be specific orientation, with specific azimuth configuration and operation, therefore limit of the present utility model can not be construed to System.

In description of the present utility model, in addition it is also necessary to which explanation, unless otherwise clearly defined and limited, term " are set Put ", " installation ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be directly connected to or by between intermediary in succession Connect, can be the connection of two element internals.For the ordinary skill in the art, it can understand above-mentioned with concrete condition Concrete meaning of the term in the utility model.

First embodiment

The present embodiment provides a kind of twin shaft photovoltaic apparatus 100, as shown in figure 1, the twin shaft photovoltaic apparatus 100 includes：Bottom Seat 110, the first stepper motor 120 on the base 110, first turn be connected with first stepper motor 120 Moving axis 130, the support frame 140 in first rotary shaft 130, installed in support frame as described above 140 away from described first Second stepper motor 150 of the one end of rotary shaft 130 and the second rotary shaft 160 being connected with second stepper motor 150. Photovoltaic panel 170 is installed in second rotary shaft 160.Wherein, first stepper motor 120 passes through first rotary shaft 130 control support frames as described above 140 rotate to drive the photovoltaic panel 170 to be rotated in a first direction.Second stepper motor 150 The photovoltaic panel 170 is controlled to be rotated in a second direction, by second rotary shaft 160.In summary, the utility model is implemented Example can use photovoltaic panel 170 to be rotated along both direction by setting two rotary shafts on the twin shaft photovoltaic apparatus 100, Enable photovoltaic panel 170 receive sunlight scope it is wider so that realize preferably collect solar energy purpose.

In the present embodiment, the base 110 is used to support other parts on the twin shaft photovoltaic apparatus 100.The bottom Seat 110 can be any bodily form such as cuboid, square, cylinder.Those skilled in the art can set institute according to demand State the shape of base 110.As preferred embodiment, the weight of the base 110 can be set greater than directly or indirectly by The weight summation for other parts that the base 110 is supported.In some instances, the base 110 can be arranged on greenhouse Outside or top.When the base 110 is mounted or located at ground, by the way that the weight of the base 110 is arranged to Weight summation more than the other parts directly or indirectly supported by the base 110 can be efficiently against twin shaft photovoltaic The problem of equipment 100 places shakiness.

In the present embodiment, first stepper motor 120 be arranged on the base 110 on, first rotary shaft 130 with The output shaft of the base 110 links together.When first stepper motor 120 is operated, the output shaft rotation is to drive First rotary shaft 130 is rotated in a first direction.Wherein, stepper motor is also known as pulse motor, based on most basic electromagnetism Iron principle, it be it is a kind of electric impulse signal can be changed into the opened loop control motor of angular displacement or displacement of the lines, its principle be according to Electromagnetic torque is produced by the change of air-gap permeance.

When the level of base 110 is fixed, the first direction can be horizontal direction.When the base 110 is installed In other positions such as greenhouse roofs, the first direction can be the direction parallel with the upper surface of base 110.

As shown in figure 1, support frame as described above 140 is arranged in first rotary shaft 130.First stepper motor 120 Output shaft may be mounted at the off-centered position of first rotary shaft 130, support frame as described above 140 is arranged on described first Side of the rotary shaft 130 away from the output shaft.The output shaft can also be arranged on the centre bit of first rotary shaft 130 Put, described first rotary shaft, 130 external support members, support frame as described above 140 can be arranged on the support member.In a reality In example, support frame as described above 140 can pass completely through or insert first rotary shaft 130 or the support member, can also fix In the side of first rotary shaft 130 or the support member away from the base 110.

In the present embodiment, the twin shaft photovoltaic apparatus 100 also includes：Controller (not shown) and multiple photo resistance 180. The multiple photo resistance 180 is electrically connected with the controller respectively, and the multiple photo resistance 180 can be according to actual needs The diverse location in the photovoltaic panel 170 is separately mounted to, for detecting light intensity and sending the controller to.

In the present embodiment, the photo resistance 180 is arranged in the photovoltaic panel 170.As shown in figure 1, six photosensitive electricity Resistance 180 is separately mounted to four corners of the photovoltaic panel 170 and wherein on the side on both sides, for detecting different azimuth light It is strong and weak.Certainly, those skilled in the art can set more or less according to real needs in the photovoltaic panel 170 Photo resistance 180 is to test the power of different azimuth light.

The controller may be mounted on support frame as described above 140, can also be arranged on the base 110.The control Device processed is used for the light intensity data in each orientation detected according to the multiple photo resistance 180, controls the first step The running of the stepper motor 150 of stepper motor 120 and second.The controller is by controlling first stepper motor 120 and second Stepper motor 150 makes the photovoltaic panel 170 towards the strong position of light.

The controller is electrically connected with the stepper motor 150 of the first stepper motor 120 and second, and according to described First stepper motor 120 described in the light intensity extent control that photo resistance 180 is detected and the second stepper motor 150 are operated, And then drive the photovoltaic panel 170 to move.

The controller can be single-chip microcomputer.Single-chip microcomputer (Microcontrollers) is a kind of IC chip, is Using very large scale integration technology the central processor CPU with data-handling capacity, random access memory ram, read-only Memory ROM, a variety of I/O mouthfuls and interrupt system, the function such as timer/counter and (may also include display driver circuit, pulsewidth The circuits such as modulation circuit, analog multiplexer, A/D converter) to be integrated into constituted on one piece of silicon chip one small and perfect Microcomputer system.

The photovoltaic panel 170 is that a kind of exposure will produce the TRT of direct current in the sun, by semiconductor material The thin body solid photovoltaic cell composition that (such as silicon) is made.

As shown in Fig. 2 the base 110 is provided with accommodating support frame as described above 140 with the side that support frame as described above 140 is contacted The annular groove 111 of one end, and the end of support frame as described above 140 can move around the annular groove 111.Specifically, institute is worked as When stating the first stepper motor 120 positioned at 111 home position of annular groove, the inside radius d1 of the annular groove 111 is not more than institute The output shaft and support frame as described above 140 of the first stepper motor 120 are stated close to the distance of the side of the first stepper motor 120, the ring The outer radius d2 of shape groove 111 is not less than the output shaft and support frame as described above 140 of first stepper motor 120 away from the first stepping The distance of the side of motor 120.Specifically, in an example, the width of the notch of the annular groove 111 is less than annular groove 111 The width of bottom, one end of support frame as described above 140 is stuck in the annular groove 111.

Twin shaft photovoltaic apparatus 100 in above-described embodiment, light is directly or indirectly controlled by two stepper motors The rotation of volt plate 170 receives the luminous energy of different angles to realize.In addition, the twin shaft photovoltaic apparatus 100 by controller according to The light intensity that the photo resistance 180 is detected controls the running of two stepper motors to realize that photovoltaic panel 170 can receive To more luminous energy, the efficiency that twin shaft photovoltaic apparatus 100 collects luminous energy is improved.

Second embodiment

The utility model embodiment also provides a kind of greenhouse environment control system, as shown in figure 3, the greenhouse flower System includes above-mentioned twin shaft photovoltaic apparatus 100, greenhouse environment controller 200, humidity detector 300, humidity control apparatus 400、CO₂Detection means 500, CO₂Adjusting means 600, illumination detection means 700 and light adjusting device 800.

The twin shaft photovoltaic apparatus 100 is filled with the greenhouse environment controller 200, humidity detector 300, humidity regulation Put 400, CO₂Detection means 500, CO₂Adjusting means 600, illumination detection means 700 and light adjusting device 800 are electrically connected with. The twin shaft photovoltaic apparatus 100 is used for the greenhouse environment controller 200, humidity detector 300, humidity control apparatus 400、CO₂Detection means 500, CO₂Adjusting means 600, illumination detection means 700 and light adjusting device 800 are powered.

The greenhouse environment controller 200 respectively with the humidity detector 300, humidity control apparatus 400, CO₂Inspection Survey device 500, CO₂Adjusting means 600, illumination detection means 700 and light adjusting device 800 are communicated to connect.

The humidity value control that the greenhouse environment controller 200 is detected according to the humidity detector 300 is described wet The humidity spent in the regulation of adjusting means 400 greenhouse.The humidity sensor may include multiple humistors.The humistor is set The diverse location in greenhouse is put to detect the humidity in greenhouse.

As shown in figure 4, the humidity control apparatus 400 may include：Blower fan 410 and sprayer 420.The greenhouse control Device 200 processed controls the blower fan 410 to open to reduce when the humidity that the humidity detector 300 is detected is higher than preset value Humidity in greenhouse.The greenhouse environment controller 200 is less than preset value in the humidity that the humidity detector 300 is detected When, control the sprayer 420 to open to increase the humidity in greenhouse.The preset value can be stored in advance in the greenhouse The value for user's input that value or the greenhouse environment controller 200 in environmental control 200 are received.It is described pre- If value for be adapted to greenhouse in plant growth humidity value higher limit or lower limit, specifically, those skilled in the art or User can set the preset value according to demand, and the utility model embodiment is not limited with the size of the preset value.

The greenhouse environment controller 200 is according to the CO₂The CO that detection means 500 is detected₂Concentration controls the CO₂ CO in the regulation of adjusting means 600 greenhouse₂Concentration.

The greenhouse environment controller 200 is according to the light intensity control that the illumination detection means 700 is detected Light intensity in the regulation of light adjusting device 800 greenhouse.

As shown in figure 5, the light adjusting device 800 includes multiple light compensating lamps 810.

The light intensity control that the greenhouse environment controller 200 is detected according to the illumination detection means 700 is described more Individual light compensating lamp 810 is turned on and off.For example, the light that the light detection means are detected is stronger, the greenhouse flower The number that device 200 controls the light compensating lamp 810 to open is fewer, conversely, then more.In one embodiment, the greenhouse ring Border control system may include multiple illumination detection means 700.The greenhouse environment controller 200 is examined according to the illumination of diverse location Survey the open and close of the light compensating lamp 810 for the light intensity control correspondence position that device 700 is detected.For example, the illumination of location A The light that detection means 700 is detected then opens the light compensating lamp 810 of the location A less than the light minimum of setting.B location The light that illumination detection means 700 is detected is higher than the light peak set, and the light compensating lamp 810 of B location is currently unlatching State, then close the light compensating lamp 810 of the B location.

In other embodiments, as shown in fig. 6, the greenhouse environment control system may also include temperature-detecting device 1000, the greenhouse environment controller 200 controls institute when the temperature that the temperature-detecting device 1000 is detected is higher than preset value Blower fan 410 is stated to open to reduce the temperature in greenhouse.In one embodiment, the temperature-detecting device 1000 with it is described wet It can be the Temperature and Humidity device become one to spend detection means 300.In another embodiment, the temperature detection dress It can also be two independent devices that 1000, which are put, with the humidity detector 300.

In other embodiments, it is described logical as shown in fig. 6, the greenhouse environment control system also includes ventilation equipment 900 Wind devices 900 are arranged in the greenhouse, and the greenhouse environment controller 200 controls unlatching and the pass of the ventilation equipment 900 Close.For example, when the temperature that the temperature-detecting device 1000 is detected is higher than preset value, controlling the ventilation equipment 900 to open Open to reduce the temperature in greenhouse.

In other embodiments, as shown in fig. 6, the greenhouse environment control system also includes warning device 1100, it is used for Alarm signal is sent when the data that the greenhouse environment controller 200 is received are not in corresponding specified number range. The data include humidity value, the CO that humidity detector 300 is detected₂The CO that detection means 500 is detected₂Concentration, illumination detection dress Put the temperature value that the light intensity and temperature-detecting device 1000 of 700 detections are detected.The warning device 1100 can be acousto-optic Warning device 1100.Sound or flash lamp alarm are sent when the data are not in corresponding specified number range.Alarm The alarm of device 1100 can be in greenhouse each item data can effectively remind user when being unsatisfactory for certain value, allow a user to Each data in enough greenhouses of adjustment in time.

In other embodiments, it is described as shown in fig. 6, the greenhouse environment control system also includes display device 1200 Display device 1200 is used for the data for showing that greenhouse environment controller 200 is obtained.In one embodiment, the display device 1200 can show each data time history plot in the greenhouse detected respectively in the way of number axis.By aobvious Showing device 1200 shows that the data that the greenhouse environment controller 200 is obtained can allow the user to more intuitively see in greenhouse Each data, understand greenhouse present situation.

According to the greenhouse environment control system provided in above-described embodiment, pass through the number detected according to each detection means According to opening each adjusting means in greenhouse to realize automatically adjusting for greenhouse.In addition, by using twin shaft photovoltaic apparatus 100 power supplies can save non-renewable energy resources.

Preferred embodiment of the present utility model is the foregoing is only, the utility model is not limited to, for this For the technical staff in field, the utility model can have various modifications and variations.It is all it is of the present utility model spirit and principle Within, any modification, equivalent substitution and improvements made etc. should be included within protection domain of the present utility model.It should be noted that Arrive：Similar label and letter represents similar terms in following accompanying drawing, therefore, once determined in a certain Xiang Yi accompanying drawing Justice, then further need not be defined and be explained to it in subsequent accompanying drawing.

It is described above, embodiment only of the present utility model, but protection domain of the present utility model do not limit to In this, any one skilled in the art can readily occur in change in the technical scope that the utility model is disclosed Or replace, it should all cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be described with power The protection domain that profit is required is defined.

Claims (10)

1. a kind of twin shaft photovoltaic apparatus, it is characterised in that the twin shaft photovoltaic apparatus includes：

Base；

The first stepper motor on the base；

With the first rotary shaft of first stepper motor；

Support frame in first rotary shaft；

The second stepper motor installed in one end of remote first rotary shaft of support frame as described above；

Photovoltaic panel is installed in the second rotary shaft being connected with second stepper motor, second rotary shaft, wherein：

First stepper motor controls support frame as described above to rotate to drive the photovoltaic panel along the by first rotary shaft One direction is rotated, and second stepper motor controls the photovoltaic panel second direction to rotate by second rotary shaft.

2. twin shaft photovoltaic apparatus as claimed in claim 1, it is characterised in that the side that the base is contacted with support frame as described above The annular groove of accommodating support frame as described above one end is provided with, and the end of support frame as described above can be moved around the annular groove.

3. twin shaft photovoltaic apparatus as claimed in claim 1, it is characterised in that also include：Controller and multiple photo resistance, institute State multiple photo resistance to be electrically connected with the controller, the multiple photo resistance is arranged on the different positions in the photovoltaic panel Put, the photo resistance sends the light intensity detected to the controller；

The controller is electrically connected with first stepper motor and the second stepper motor, and is controlled according to the light intensity First stepper motor and the second stepper motor motion, and then drive the photovoltaic panel motion.

4. a kind of greenhouse environment control system, it is characterised in that the greenhouse environment control system includes the claims 1-3 Twin shaft photovoltaic apparatus, greenhouse environment controller, humidity detector, humidity control apparatus, CO described in any one₂Detection dress Put, CO₂Adjusting means, illumination detection means and light adjusting device；

The twin shaft photovoltaic apparatus is used for the greenhouse environment controller, humidity detector, humidity control apparatus, CO₂Detection Device, CO₂Adjusting means, illumination detection means and light adjusting device are powered；

The greenhouse environment controller respectively with the humidity detector, humidity control apparatus, CO₂Detection means, CO₂Regulation Device, illumination detection means and light adjusting device communication connection；

The humidity value that the greenhouse environment controller is detected according to the humidity detector controls the humidity control apparatus Adjust the humidity in greenhouse；

The greenhouse environment controller is according to the CO₂The CO that detection means is detected₂Concentration controls the CO₂Adjusting means is adjusted Save the CO in greenhouse₂Concentration；

The light intensity that the greenhouse environment controller is detected according to the illumination detection means controls the light regulation to fill Put the light intensity in regulation greenhouse.

5. greenhouse environment control system as claimed in claim 4, it is characterised in that the humidity control apparatus includes：Blower fan And sprayer；

The greenhouse environment controller controls the blower fan to open when the humidity that the humidity detector is detected is higher than preset value Open to reduce the humidity in greenhouse；

The greenhouse environment controller controls the sprayer when the humidity that the humidity detector is detected is less than preset value Open to increase the humidity in greenhouse.

6. greenhouse environment control system as claimed in claim 5, it is characterised in that the system also includes temperature-detecting device, The greenhouse environment controller when the temperature that the temperature-detecting device is detected is higher than preset value, control the blower fan to open with Reduce the temperature in greenhouse.

7. greenhouse environment control system as claimed in claim 4, it is characterised in that the light adjusting device includes multiple mend Light lamp；

The light intensity that the greenhouse environment controller is detected according to the illumination detection means controls the multiple light compensating lamp to open Open or close.

8. greenhouse environment control system as claimed in claim 4, it is characterised in that also including ventilation equipment, the ventilation is set Standby to be arranged in the greenhouse, the greenhouse environment controller controls the open and close of the ventilation equipment.

9. the greenhouse environment control system as described in claim 4-8 any one, it is characterised in that also including warning device, Alarm signal is sent during for the data that are received in the greenhouse environment controller not in corresponding specified number range.

10. greenhouse environment control system as claimed in claim 9, it is characterised in that the system also includes display device, described Display device is used for the data for showing that greenhouse environment controller is obtained.