CN206835750U - A kind of crop-planting greenhouse system with illumination apparatus - Google Patents

Abstract

The utility model provides a kind of crop-planting greenhouse system with illumination apparatus, it includes frame and the coating of cover it, wherein described coating uses shading heat-insulating heat-preserving material, to cause the plant growth Parameter Conditions such as temperature in canopy, illumination, humidity smaller by external environment influence, the front portion of the frame is provided with enabling.Control system is additionally provided with the canopy, it includes actuation means, memory, illumination apparatus, temperature-adjusting device, irrigation rig, nutriment storage device.Wherein described actuation means are used for the operation of whole control system, the memory internal memory contains the best growing condition data of multiple kinds of crops, the illumination apparatus is used to provide solar radiation for crop in canopy, the temperature-adjusting device is used to adjust temperature of shed, the irrigation rig is used to provide water for crop in canopy, and the nutriment storage device internal memory contains the nutrient solution needed for plant growth.

Description

A kind of crop-planting greenhouse system with illumination apparatus

Technical field

Crop-planting greenhouse system is the utility model is related to, especially, one kind can carry out plant growth parameter regulation in canopy Crop-planting greenhouse system.

Background technology

, it is known that the growth of crops is typically in natural environment, carried out by natural conditions such as the illumination of environment, rainwater Naturally grow.But the crops grown under this natural environment, its yield can not meet the needs of people, therefore, manpower Start to intervene, to obtain more preferable crop yield and crop quality.

The intervention of manpower, it is typically in terms of concentrating on to the watering Irrigation of crops and fertilising, by being provided for crops Enough moisture and nutriment so that its growth is more healthy and strong, and then increases its yield produced, and improves its matter produced simultaneously Amount.

The above is sayed, it may be said that is the usual way of traditional agriculture, but with the development of science and technology, how to be drawn modern science and technology Enter to traditional agriculture in planting, it is modern agriculture to make its transformation, then the direction that always industry is made great efforts.

For example, for growth conditions such as the necessary illumination of crop growth, moisture, temperature, fertilizer, modern section how is introduced Skill means, effectively to be controlled to adjust to the growth conditions of these crops so that it is always under optimal growing environment Grown, and for its progress, targetedly nutriment supplements simultaneously, this ensures that the yield and quality of its last output, And then obtain maximum economic benefit.

Certainly, scientific and technological means are introduced to be controlled regulation to the growing environment of crops, are inevitably increased Its production cost, so that its commercial value goes up.But for some industrial crops, its different size and weight, meeting So that its price differs several times, therefore, this introducing technological meanses, to improve the weight of its output crop and corresponding outline body Product, the increase of its commercial value is to be entirely capable of covering the production cost improved during its input, while can also obtain considerable warp Ji benefit.

Therefore, industry needs more to be concerned with how preferably to adjust and control the growing environment of crop, so that its It can be grown always under optimum growh environment.

Utility model content

The purpose of this utility model is to provide a kind of crop-planting greenhouse system, its can to the temperature in canopy, illumination, Soil moisture and soil nutrient are adjusted, to cause the crop planted in canopy to obtain the best growing condition, so as to ensure canopy Interior crop obtains optimal crop output.

To achieve these goals, the technical solution adopted in the utility model is as follows：

A kind of crop-planting greenhouse system, it includes frame and the coating of cover it, wherein the coating is adopted With shading heat-insulating heat-preserving material, to cause the plant growth Parameter Conditions such as temperature in canopy, illumination, humidity by external environment influence Smaller, the front portion of the frame is provided with enabling.Be additionally provided with control system in the canopy, it include actuation means, memory, Illumination apparatus, temperature-adjusting device, irrigation rig and nutriment storage device.Wherein described actuation means are used to entirely control The operation of system, the memory internal memory contain the best growing condition data of various crop, and the illumination apparatus is used for in canopy Crop provides solar radiation, and the temperature-adjusting device is used to adjust temperature of shed, and the irrigation rig is used for for crop in canopy Water is provided, the nutriment storage device internal memory contains the nutrient solution needed for plant growth.Wherein described actuation means are deposited with described Reservoir connects, and can read the plant growth conditions data of its memory storage, and controls the illumination apparatus, temperature adjustment with this Device, irrigation rig and nutriment storage device, the best growing condition is provided for long-term cropping in canopy.

Further, in different embodiments, wherein the actuation means include controller and instruction input unit；Its Described in controller be connected with the memory, and the plant growth conditions data of its memory storage can be read, the controller connects Connect the instruction input unit.

Further, in different embodiments, wherein the actuation means are aobvious also including what is be connected with the controller Show unit.

Further, in different embodiments, wherein the actuation means also include the language being connected with the controller Sound communication unit, for carrying out speech communication with the external world.

Further, in different embodiments, wherein the actuation means also include the number being connected with the controller According to communication unit, the memory can be received and be transmitted data by the data communication unit.

Further, in different embodiments, wherein the actuation means also include taking the photograph with what the controller was connected As head, for obtaining video image.

Further, in different embodiments, wherein the illumination apparatus includes ultraviolet radiator and light sensor Device, wherein the controller controls the ultraviolet radiator to carry out illumination, the light sensor collects the illumination number in canopy The controller is sent to according to and by the photometric data that collects, when the controller finds what the light sensor collected When illumination parameter data reach crop optimum illumination parameter in canopy, it can close the ultraviolet radiator.

Further, in different embodiments, wherein the ultraviolet radiator includes 2 or more quantity, its is equal The even top for being arranged on the frame, to carry out comprehensive illumination to crop in canopy.

Further, in different embodiments, wherein the ultraviolet radiator includes 2 or more quantity, its point The both sides of the frame are not uniformly arranged on, to carry out comprehensive illumination to crop in canopy.

Further, in different embodiments, wherein the lamp socket of the ultraviolet radiator is arranged on one universal turn On joint, it is connected with a motor, and the controller controls the motor, and then can control the ultraviolet The irradiating angle of irradiation light, ultraviolet light can be carried out with the angle of needs.

Further, in different embodiments, wherein the temperature-adjusting device includes air-conditioning and air themperature senses Device, the air-conditioning device are used to adjust temperature of shed, in the air temperature sensor collection canopy air themperature data and by its Send the controller to.When air themperature data reach in the canopy that the controller discovery air temperature sensor collects In to canopy during crop optimum growth temp, it can stop the air-conditioning device work.

Further, in different embodiments, wherein the temperature-adjusting device also includes geothermal device and soil temperature Sensor is spent, the geothermal device is used to adjust the soil moisture in canopy, and the soil temperature sensor is used to gather soil in canopy Temperature information is simultaneously transferred to the controller.When in the canopy that the controller discovery soil temperature sensor collects When soil temperature data reaches crop optimum growth temp in canopy, it can stop the geothermal device work.

Further, in different embodiments, wherein the irrigation rig includes water lines, pass through in the water lines Flexible pipe is connected with the first shower nozzle, and first shower nozzle is arranged on slide rail, and can be moved reciprocatingly along the slide rail.

Further, in different embodiments, wherein being connected with the first spray of 2 or more quantity in the water lines Head, these first shower nozzles are arranged on same slide rail.

Further, in different embodiments, wherein being connected with first switch valve in the water lines, the controller The first switch valve is connected, and then controls the opening and closing of the water lines.

Further, in different embodiments, wherein being additionally provided with the first kinetic pump in the water lines, its with it is described Controller connects, and the controller provides power by first kinetic pump for the current in the water lines.

Further, in different embodiments, wherein the irrigation rig includes being used to gather air humidity in canopy Air humidity sensor, its air humidity data for being connected with the controller and being collected to its transmission, the controller root The air humidity data gathered according to the air humidity sensor, control the operation of the irrigation rig.

Further, in different embodiments, wherein the irrigation rig includes being used to gather soil moisture in canopy Soil humidity sensor, its soil moisture data for being connected with the controller and being collected to its transmission, the control The soil moisture data that device gathers according to the soil humidity sensor, control the operation of the irrigation rig.

Further, in different embodiments, wherein the nutriment storage device include nutrient solution reservoir and and its The transfer pipeline of connection, the second shower nozzle of 2 or more quantity is provided with the transfer pipeline.

Further, in different embodiments, wherein being connected with second switch valve on the transfer pipeline, the control Device connects the second switch valve, and then controls the connection between the nutriment storage device and the transfer pipeline or pass Close.

Further, in different embodiments, wherein being additionally provided with the second kinetic pump on the transfer pipeline, itself and institute Controller connection is stated, the controller provides flowing for the nutrient solution in the conveyance conduit by second kinetic pump and moved Power.

Further, in different embodiments, wherein the nutrient solution reservoir, it is connected with the water lines, institute The nutrient solution for stating nutrient solution reservoir memory storage is conveyed by the water lines.

Further, in different embodiments, wherein the control system also includes warning device, when the manipulation dress Put when there is faulty operation in discovery system, it is notified that the warning device is alarmed.

Further, in different embodiments, wherein the warning device includes acousto-optic warning unit.For example, buzzing Device, warning lamp etc..

Further, in different embodiments, wherein the actuation means are connected in outside by cloud server Control system is entreated, and data exchange can be carried out between the two.

Further, in different embodiments, wherein being additionally provided with monitoring camera in the canopy, it passes through the cloud End server is connected to outside central control system.

Further, in different embodiments, wherein the warning message that the warning device is sent is via the cloud End server is sent to the central control system.

Relative to prior art, the beneficial effects of the utility model are：A kind of crop-planting that the utility model is related to is big Canopy system, it uses shading insulation material to carry out relative closure processing to the natural conditions in space in canopy so that its by it is extraneous from The influence of right environment is smaller, while control system is set in canopy, and the growth conditions parameter that long-term cropping in canopy needs is carried out Control, makes it in growth course, is always the optimum growh environmental condition needed for crop, so that long-term cropping obtains in canopy Best output is obtained, for example, bigger single volume and bigger single weight.This is for some medicinal crops, more greatly Single volume weight, its price be often into series rise, therefore, this crop greenhouse that the utility model is related to is non- Often it is adapted to, remunerative crop application and popularizations, its cost price commercial value of crop output in the inner relatively, still very It is advantageous.

Further, the greenhouse control system that the utility model is related to can be connected to a center by cloud server In control system so that multiple independent greenhouse systems, by closed system independent one by one, turn into one it is open Large-scale combined system, while convenient be managed collectively, to a certain extent, can also reduce the crop output of each greenhouse into This.

Brief description of the drawings

Fig. 1 is a kind of contour structures for crop-planting greenhouse system that the embodiment that the utility model is related to provides Figure；

Fig. 2 is a kind of crop-planting greenhouse system shown in Fig. 1, the building-block of logic of the control system set in it；

Fig. 3 is the building-block of logic of its actuation means in the control system shown in Fig. 2；

Fig. 4 is the building-block of logic of its illumination apparatus in the control system shown in Fig. 2；

Fig. 5 is its thermostatic building-block of logic in the control system shown in Fig. 2；

Fig. 6 is the building-block of logic of its irrigation rig in the control system shown in Fig. 2；

Fig. 7 is the building-block of logic of its nutriment storage device in the control system shown in Fig. 2；

Fig. 8 is under the crop-planting greenhouse system networking situation that the further embodiment that the utility model is related to provides Building-block of logic.

Description of reference numerals in Fig. 1 ~ 8 is as follows：

The coating 20 of frame 10

Open the door 12 actuation means 30

The input block 32 of controller 31

The speech communication unit 34 of display unit 33

The camera 36 of data communication unit 35

The illumination apparatus 50 of memory 40

The light sensor 54 of ultraviolet radiator 52

The motor 58 of Universal rotary joint 56

The air-conditioning 62 of temperature-adjusting device 60

The geothermal device 61 of air temperature sensor 64

The irrigation rig 70 of soil temperature sensor 63

The water lines 72 of first switch valve 71

The slide rail 74 of first kinetic pump 73 first

The air humidity sensor 76 of first shower nozzle 75

Flexible pipe 77,88

The nutriment storage device 80 of soil humidity sensor 78

The nutrient solution reservoir 82 of second switch valve 81

The transfer pipeline 84 of second kinetic pump 83

The slide rail 86 of second shower nozzle 85 second

The central control system 100 of warning device 90

The cloud server 110 of monitoring camera 101.

Embodiment

Below with reference to drawings and examples, to a kind of technical side for the crop-planting greenhouse system that the utility model is related to Case is described in further detail.

Refer to shown in Fig. 1, an embodiment of the present utility model provides a kind of crop-planting greenhouse system, and it is wrapped Frame 10 and the coating 20 of cover it are included, wherein the coating 20 uses shading heat-insulating heat-preserving material, to cause canopy The plant growth Parameter Conditions such as interior illumination, temperature, humidity are smaller by external environment influence.The front portion of the frame 10 is provided with Enabling 12, to facilitate inside and outside the disengaging greenhouse.The rear portion of the frame can also set back pullout (BPO) with the need, and unrestrictedly.

Relative to existing crop greenhouse structure, the light-transmissive cover of its generally use, although so as to obtaining certain Illumination and temperature, but it is also relatively large by ectocine.And the utility model can then be made using the heat-insulated coating of shading In canopy environment be affected by the external environment smaller, then can effectively control environmental condition in canopy by multiple technologies means, enter And so that the growth conditions of crop is optimum condition always in canopy.Wherein described coating can include inside and outside two layers of material, Internal layer is formed for insulation material, and outer layer is formed for light screening material.In different embodiments, wherein the coating also can be independent It is made up of a kind of light screening material, temperature of shed can be adjusted by temperature-adjusting device.

In one embodiment in mode, wherein the greenhouse structure that the utility model is related to, its skeleton and coating by Cement outer layer implements its function, and heat-insulation layer can be set in cement outer layer, can also be not provided with heat-insulation layer.Heat-insulation layer energy is set The consumption of canopy self-energy is saved to a certain extent, is played the role of certain green.

Further, due in canopy environment be affected by the external environment smaller, therefore, control system is set, to enter in it The adjustment and control of environmental condition, can be very good so that environmental condition reaches predetermined environmental condition in canopy in row canopy.

Specifically, refer to shown in Fig. 2, the control system include actuation means 30, memory 40, illumination apparatus 50, Temperature-adjusting device 60, irrigation rig 70, nutriment storage device 80 and warning device 90.

Wherein described actuation means 30 are used for the operation of whole control system, and the internal memory of memory 40 contains various crop The best growing condition data, the illumination apparatus 50 is used to for crop in canopy provide solar radiation, the temperature-adjusting device 60 are used to adjust temperature of shed, and the irrigation rig 70 is used to provide water, the internal memory of nutriment storage device 80 for crop in canopy The nutrient solution needed for plant growth is contained, when operational problems occurs in system in the warning device 90, carries out warning reminding.

Refer to shown in Fig. 3, wherein the actuation means 30 include controller 31, it is connected with the memory 40, and It can read the plant growth conditions data of its memory storage, and control the illumination apparatus 50, temperature-adjusting device 60 with this, fill Device 70 and nutriment storage device 80 are irrigate, the best growing condition is provided for long-term cropping in canopy.

Wherein described memory 40 can be hard disk, CD, mobile memory cell etc., can specifically set with the need, and Unrestrictedly, the optimum growh data of a variety of Different Crops are stored with.

Further, wherein the controller 31 is also associated with instruction input unit 32, for receiving external command.Wherein The controller 31 is also associated with display unit 33, for showing ambient information in canopy.For example, temperature of shed, soil in canopy Earth humidity, air humidity in canopy, illumination condition and soil nutrient condition etc. in canopy, but be not limited to.

Further, wherein the controller 31 is also associated with speech communication unit 34, lead to for carrying out voice with the external world News.The controller 31 is also associated with data communication unit 35, and the memory 40 can by the data communication unit 35 Receive and transmit data.Wherein described data communication unit 35 can be that wireless can also be wired forms, with the need and It is fixed, and unrestrictedly.The controller 31 is also associated with camera 36, for obtaining video image.

In one embodiment, wherein the instruction input unit 32, display unit 33, speech communication unit 34 and Camera 36, it can all be integrated in a touch display screen, thereon integrated microphone, camera.The setting of these functional units, So that the control system, is being not a relatively independent closed system, but an open system, also increase simultaneously Its human-computer interaction function.

Refer to shown in Fig. 4, wherein the illumination apparatus 50 includes ultraviolet radiator 52 and light sensor 54, wherein The controller 31 controls the ultraviolet radiator 52 to carry out illumination, and the light sensor 54 collects the photometric data in canopy And the photometric data collected is sent to the controller 31, when the controller 31 finds that the light sensor 54 gathers To illumination parameter data reach crop optimum illumination parameter in canopy when, it can close the ultraviolet radiator 52.

Further, in an embodiment, wherein the ultraviolet radiator 52, including multiple, particular number can Rationally being set according to canopy inner area, these ultraviolet radiators 52 are uniformly arranged on the top and both sides of the frame, so as to Comprehensive illumination is provided crop in canopy.

Further, the lamp socket of the ultraviolet radiator 52 is arranged on a Universal rotary joint 56, and it is connected with one Individual motor 58, the controller 31 control the motor 58, and then can control the ultraviolet radiator 52 Irradiating angle, ultraviolet light can be carried out to long-term cropping in canopy with the angle of needs.

Refer to shown in Fig. 5, wherein the temperature-adjusting device 60 includes air-conditioning 62 and air temperature sensor 64, it is described Air-conditioning device 62 is used to adjust temperature of shed, and the air temperature sensor 64 gathers air themperature data in canopy and transmitted To the controller 31.When the controller 31 finds air themperature data in canopy that the air temperature sensor 64 collects When reaching crop optimum growth temp in canopy, it can stop the air-conditioning device 62 and work.

Further, wherein the temperature-adjusting device 60 also includes geothermal device 61 and soil temperature sensor 63, institute State geothermal device 61 to be used to adjust the soil moisture in canopy, the soil temperature sensor 63 is used to gather soil moisture information in canopy And it is transferred to the controller 31.When the controller 31 finds soil in canopy that the soil temperature sensor 63 collects When earth temperature data reaches crop optimum growth temp in canopy, it can stop the geothermal device 61 and work.

Refer to shown in Fig. 6, wherein the irrigation rig 70 includes water lines 72, first is provided with the water lines 72 Switch valve 71, the first kinetic pump 73 and the first shower nozzle 75.Wherein described first switch valve 71 is used for the opening and closing of the water lines 72, It is connected with the controller 31 and receives its opening and closing instruction, and first kinetic pump 73 is that the fluid in the water lines 72 carries For mobilization dynamic, can be sprayed out of described first shower nozzle 75.

Further, first shower nozzle 75 is connected in the water lines 72 by flexible pipe 77, and first shower nozzle 75 are arranged on the first slide rail 74, and can be moved reciprocatingly along first slide rail 74.In different embodiments, it is wherein described The first shower nozzle 75 of 2 or more quantity is connected with water lines, these first shower nozzles 75 are arranged on same slide rail 74.

The setting quantity of wherein described first shower nozzle 75 can be calculated according to canopy inner area so that crop can be obtained in canopy Enough to moisture, simultaneously because first shower nozzle 75 can enter line slip along first slide rail 74, so that making in canopy Thing can uniformly receive moisture, be not in the local situation by dilutional hyponatremia.

Further, wherein the irrigation rig 70 includes being used for the air humidity sensor for gathering air humidity in canopy 76, its air humidity data for being connected with the controller 31 and being collected to its transmission, the controller is according to The air humidity data of air humidity sensor collection, control first shower nozzle 75 to spray water.

Further, wherein the irrigation rig 70 includes being used for the soil humidity sensor for gathering soil moisture in canopy 78, its soil moisture data for being connected with the controller 31 and being collected to its transmission, the controller 31 is according to institute The soil moisture data of the collection of soil humidity sensor 78 is stated, controls first shower nozzle 75 to spray water.

Refer to shown in Fig. 7, wherein the nutriment storage device 80 includes nutrient solution reservoir 82 and transfer pipeline 84.Its Described in the memory storage of nutrient solution reservoir 82 have nutrient solution for plant growth, the nutrient solution passes through the transfer pipeline 84 It is conveyed to crop in canopy.

Specifically, the structure of the transfer pipeline 84 can be similar to the water lines 72, second switch is provided with Valve 81, the second kinetic pump 83 and the second shower nozzle 85.Wherein described switch valve 81 be used for the nutrient solution reservoir 82 with it is described defeated The connection between pipeline 84 is sent, it is connected with the controller 30 and receives its opening and closing instruction, and the kinetic pump 83 is described defeated Send the nutrient solution fluid in pipeline 84 to provide mobilization dynamic, can spray or flow out out of described second shower nozzle 85.

Further, wherein second shower nozzle 85 can also be connected to by flexible pipe 88 on the transfer pipeline 84, And second shower nozzle 85 is arranged on the second slide rail 86, and can be moved reciprocatingly along second slide rail 86.

In different embodiments, wherein being connected with the second shower nozzle 85 of 2 or more quantity on the transfer pipeline 84, These second shower nozzles 85 are arranged on same slide rail.The setting quantity of second shower nozzle 85 can be surveyed according to canopy inner area Calculate so that crop can obtain enough nutrient solutions in canopy, simultaneously because second shower nozzle 85 can enter line slip along slide rail, such as This enables crop in canopy uniformly to receive nutrient solution.

Further, in different embodiments, wherein the nutrient solution reservoir 82 can set it is multiple, to deposit respectively The different nutrients for being used for plant growth of storage, for example, Phosphorus Nutrient liquid, potash fertilizer nutrient solution, nitrogenous fertilizer nutrient solution etc..These nutrient solutions Memory can be connected, it is necessary to add which kind of nutrient solution by a multiple-way valve with the transfer pipeline 84, and the controller just joins Lead to its passage between the transfer pipeline 84.And for the supplement of feed compositions, can pass through periodic detection in soil Mode carry out.When finding to lack certain nutrient in soil, you can carry out corresponding nutrient solution conveying.

Further, in different embodiments, wherein the water lines 72 and the nutrition pipeline road 84 can be with Merge into one.For example, the nutrient solution reservoir 82 is directly connected to by switch valve and the water lines 72, the nutrient solution The nutrient solution of the memory storage of memory 82 is conveyed by the water lines 72.

When the warning device 90 operational problems occurs in the control system, warning reminding is carried out.It specifically can be with It is that, when there is faulty operation in the discovery system of controller 31, for example, when water shortage or nutrient solution deficiency, it can lead to Know that the warning device 90 is alarmed, to remind operating personnel to intervene in time, so as to ensure the normal operation of system.Wherein The warning device 90 includes acousto-optic warning unit, for example, buzzer, warning lamp etc..

Further, all it is independent if the crop greenhouse system that the utility model is related to from the perspective of type of alarm Operation, its to a certain extent, cost is still higher, because each greenhouse system is required for manually regularly checking, to protect Demonstrate,prove its normal operation.If but combine multiple greenhouse systems that the utility model is related to by internet, unified running, then It can further liberate manually, put forward high-tech involvement level.

In one embodiment, refer to shown in Fig. 8, the control system for the greenhouse system that the utility model is related to, its It is connected to by cloud server 110 in a central control system 100.The central control system is also associated with monitoring camera First 101, it is arranged on the situation for being used to check in greenhouse in greenhouse.So, the operator of the central control system 100, The real time status that can be checked by the monitoring camera 101 in canopy, if there is accident, can also be handled in time.It is and described The warning device 90 of greenhouse control system, its warning message sent can be sent to institute by the cloud server 110 Central control system 100 is stated, so as to obtain timely processing.

In addition, the operation data in greenhouse system, can also upload to the cloud server 110, the center control system System 100 can log in the cloud server 110 and check these data, or pass through the cloud server 11 and greenhouse system Control system carry out data exchange.

A kind of crop-planting greenhouse system that the utility model is related to, its use shading insulation material in canopy space from Right condition carries out relative closure processing so that and it is influenceed smaller by extraneous natural environment, while control system is set in canopy, To in canopy long-term cropping need growth conditions parameter be controlled, make it in growth course, always for needed for crop most Good growing environment condition, so that long-term cropping obtains best output in canopy, for example, bigger single volume and bigger Single weight.This is for some medicinal crops, bigger single volume weight, and its price is often to rise into series, Therefore, this crop greenhouse that the utility model is related to is especially suitable for, remunerative crop application and popularizations, its cost price The lattice commercial value of crop output, or advantageous in the inner relatively.

Further, the greenhouse control system that the utility model is related to can be connected to a center by cloud server In control system so that multiple independent greenhouse systems, by closed system independent one by one, turn into one it is open Large-scale combined system, while convenient be managed collectively, to a certain extent, can also reduce the crop output of each greenhouse into This.

Technical scope of the present utility model is not limited solely to the content in described above, and those skilled in the art can be On the premise of not departing from the utility model technological thought, to above-described embodiment carry out many variations and modifications, and these deformation and Modification all should work as and belong in the scope of the utility model.

Claims (10)

1. a kind of crop-planting greenhouse system with illumination apparatus, it includes frame and the coating of cover it；It is special Sign is, wherein the coating uses shading heat-insulating heat-preserving material, to cause temperature in canopy, illumination, humidity these crops Growth parameter(s) condition is smaller by external environment influence, and the front portion of the frame is provided with enabling；

Control system is additionally provided with the canopy, it includes actuation means, memory, illumination apparatus, temperature-adjusting device, irrigation Device and nutriment storage device；Wherein described actuation means are used for the operation of whole control system, the memory memory storage There are the best growing condition data of various crop, the illumination apparatus is used to provide solar radiation, the temperature for crop in canopy Adjusting means is used to adjust temperature of shed, and the irrigation rig is used to provide water for crop in canopy, in the nutriment storage device It is stored with the nutrient solution needed for plant growth；

Wherein described actuation means are connected with the memory, and can read the plant growth conditions data of its memory storage, and with This controls the illumination apparatus, temperature-adjusting device, irrigation rig and nutriment storage device, being carried for long-term cropping in canopy For the best growing condition；

Wherein described actuation means include controller and instruction input unit；Wherein described controller is connected with the memory, And the plant growth conditions data of its memory storage can be read, the controller connects the instruction input unit；

Wherein described illumination apparatus includes ultraviolet radiator and light sensor, wherein the controller controls the ultraviolet Irradiation light carries out illumination, and the light sensor is collected the photometric data in canopy and is sent to the photometric data collected described Controller, when the controller finds that the illumination parameter data that the light sensor collects reach crop optimum illumination in canopy During parameter, it can close the ultraviolet radiator.

A kind of 2. crop-planting greenhouse system with illumination apparatus according to claim 1；Characterized in that, wherein institute Stating ultraviolet radiator includes 2 or more quantity, and it is uniformly arranged on the top of the frame, to be carried out to crop in canopy Comprehensive illumination.

A kind of 3. crop-planting greenhouse system with illumination apparatus according to claim 1；Characterized in that, wherein institute Stating ultraviolet radiator includes 2 or more quantity, and it is uniformly arranged on the both sides of the frame respectively, so as to in canopy Crop carries out comprehensive illumination.

A kind of 4. crop-planting greenhouse system with illumination apparatus according to claim 1；Characterized in that, wherein institute The lamp socket for stating ultraviolet radiator is arranged on a Universal rotary joint, and it is connected with a motor, the controller control The motor is made, and then the irradiating angle of the ultraviolet radiator can be controlled, can be entered with the angle of needs Row ultraviolet light.

A kind of 5. crop-planting greenhouse system with illumination apparatus according to claim 1；Characterized in that, wherein institute Stating temperature-adjusting device includes air-conditioning and air temperature sensor, and the air-conditioning device is used to adjust temperature of shed, the air Temperature sensor gathers air themperature data in canopy and is transferred to the controller；When the controller finds the air When air themperature data reach crop optimum growth temp in canopy in the canopy that temperature sensor collects, it can stop the air-conditioning Device works.

A kind of 6. crop-planting greenhouse system with illumination apparatus according to claim 1；Characterized in that, wherein institute Stating temperature-adjusting device also includes geothermal device and soil temperature sensor, and the geothermal device is used to adjust soil temperature in canopy Degree, the soil temperature sensor are used to gather soil moisture information in canopy and be transferred to the controller；When the control When soil temperature data reaches crop optimum growth temp in canopy in the canopy that the device discovery processed soil temperature sensor collects, It can stop the geothermal device work.

A kind of 7. crop-planting greenhouse system with illumination apparatus according to claim 1；Characterized in that, wherein institute State actuation means and outside central control system is connected to by cloud server, and data exchange can be carried out between the two.

A kind of 8. crop-planting greenhouse system with illumination apparatus according to claim 7；Characterized in that, wherein institute State and monitoring camera is additionally provided with canopy, it is connected to outside central control system by the cloud server.

A kind of 9. crop-planting greenhouse system with illumination apparatus according to claim 7；Characterized in that, wherein institute Stating control system also includes warning device, and when there is faulty operation in the actuation means discovery system, it is notified that described Warning device is alarmed.

A kind of 10. crop-planting greenhouse system with illumination apparatus according to claim 9；Characterized in that, wherein The warning message that the warning device is sent is to be sent to the central control system via the cloud server.