CN204616573U - A kind of automated greenhouse booth daylight regulating system - Google Patents

Abstract

The utility model relates to a kind of automated greenhouse booth daylight regulating system, it comprises central processing unit, central processing unit is connected with input module, output module, display module, memory module, radio receiving transmitting module, mixed-media network modules mixed-media, communication module, man-machine interface and power module, and input module is connected with photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors, output module is connected with motor A, motor B and motor C, motor A is connected with sunshade, motor B is connected with optical filtering canopy A, motor C is connected with optical filtering canopy C, display module is connected with display, memory module is connected with memory, radio receiving transmitting module is connected with intelligent remote controller by wireless signal, mixed-media network modules mixed-media is connected with remote server by optical fiber or WiFi, remote server is connected with mobile phone terminal, have reasonable in design, easy to adjust, be convenient to remote monitoring control, advantage that automaticity is high.

Description

A kind of automated greenhouse booth daylight regulating system

Technical field

The utility model belongs to agricultural automation technical field, is specifically related to a kind of booth daylight regulating system, particularly a kind of automated greenhouse booth daylight regulating system.

Background technology

Along with the development of modern agricultural technology, automation agrotechnique is widely used, for agricultural production provides qualitative leap, in modern agriculture, green house is by the technical characterstic of self, in the season being not suitable for plant growth, breeding time and increase yield can be provided, be used for low temperature season warm season vegetable, flowers, plant cultivation or the nursery etc. such as forest, in plant growth and growth course, the light radiation factor plays an important role, first radiation is the energy of photosynthesis of plant, affect the quality of output and the product formed in photosynthesis, secondly, light to play regulatory role as a kind of, also the form of plant is occurred and development, the shape of leaf and size and play an important role from the rate of transformation of nourishing and growing to reproductive growth, so far, confirm with the large quantity research that experiment method completes, the maximum of Chlorophyll absorption solar radiation is consistent with the spectral maximum of photosynthetic efficiency, and photosynthesis is except having main peak value in red light district, at purple, blue light region, also has minor peaks, this minor peaks has strong absorption band relevant with chlorophyll in this spectrum, but, existing green house can not according to self as feature, carry out from main regulation, and can not according to each growth period of crop, do corresponding change, adjustment that can not be autonomous, so that to plant need sunlight intensity, and, can not monitor at any time, Long-distance Control, inconvenience is brought to the plantation of modern greenhouse greenhouse crops.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and provide a kind of have reasonable in design, easy to adjust, be convenient to remote monitoring control, automated greenhouse booth daylight regulating system that automaticity is high.

The technical solution adopted in the utility model is achieved in that a kind of automated greenhouse booth daylight regulating system, it comprises central processing unit, described central processing unit is connected with input module, output module, display module, memory module, radio receiving transmitting module, mixed-media network modules mixed-media, communication module, man-machine interface and power module, and described input module is connected with photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors, described output module is connected with motor A, motor B and motor C, described motor A is connected with sunshade, described motor B is connected with optical filtering canopy A, described motor C is connected with optical filtering canopy C, described display module is connected with display, described memory module is connected with memory, described radio receiving transmitting module is connected with intelligent remote controller by wireless signal, described mixed-media network modules mixed-media is connected with remote server by optical fiber or WiFi, and described remote server is connected with mobile phone terminal.

Described communication module comprises remote communication module, RS-485 communication module, wireless communication module, 232 communication modules.

Described photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors is at least set to two respectively.

Described optical filtering canopy A is set to only by ruddiness.

Described optical filtering canopy B is set to only by blue light and purple light.

Described communication module is connected with mobile phone terminal by wireless signal.

The beneficial effects of the utility model: a kind of automated greenhouse booth of the utility model daylight regulating system, adopts intelligentized regulable control, by monitoring green house, temperature, humidity, intensity of illumination and CO ₂the change of concentration, in conjunction with the growth period of crop, the rational day illumination intensity regulating needs, when needs reduce day illumination intensity, can by the output module starter motor A of central processing unit, shading tent is turned down, regulating illumination intensity that so just can be real-time, in addition, when needs increase intensity of photosynthesis, this is can by controlling motor B, shading tent A is fastened, so just can ruddiness be only made to pass through, under so just can realizing namely not affecting photosynthetic prerequisite, the temperature in greenhouse can be reduced again, when needs reduce intensity of photosynthesis, shading tent B can be fastened, the secondary spike of illumination can be realized like this to carry out photosynthesis, in addition, central processing unit is connected with communication module, the real time data in booth is sent on mobile phone timely to utilize communication module to say, be convenient to the information grasping booth timely and effectively, be convenient to management, and, can by the radio receiving transmitting module arranged, intelligent remote controller is utilized to carry out remote control adjustment, finally, central processing unit is connected with mixed-media network modules mixed-media, remote server is connected with by mixed-media network modules mixed-media, utilize the connection of mobile phone terminal and remote server, just can realize staying indoors and carry out the Long-distance Control of green house and the process of data, the utility model has reasonable in design, easy to adjust, be convenient to remote monitoring control, the advantage that automaticity is high.

Accompanying drawing explanation

Fig. 1 is the system diagram of a kind of automated greenhouse booth of the utility model daylight regulating system.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further.

Embodiment 1

As shown in Figure 1: a kind of automated greenhouse booth daylight regulating system, it comprises central processing unit, described central processing unit is connected with input module, output module, display module, memory module, radio receiving transmitting module, mixed-media network modules mixed-media, communication module, man-machine interface and power module, and described input module is connected with photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors, described output module is connected with motor A, motor B and motor C, described motor A is connected with sunshade, described motor B is connected with optical filtering canopy A, described motor C is connected with optical filtering canopy C, described display module is connected with display, described memory module is connected with memory, described radio receiving transmitting module is connected with intelligent remote controller by wireless signal, described mixed-media network modules mixed-media is connected with remote server by optical fiber or WiFi, and described remote server is connected with mobile phone terminal.

A kind of automated greenhouse booth of the utility model daylight regulating system, adopts intelligentized regulable control, by monitoring green house, and temperature, humidity, intensity of illumination and CO ₂the change of concentration, in conjunction with the growth period of crop, the rational day illumination intensity regulating needs, when needs reduce day illumination intensity, can by the output module starter motor A of central processing unit, shading tent is turned down, regulating illumination intensity that so just can be real-time, in addition, when needs increase intensity of photosynthesis, this is can by controlling motor B, shading tent A is fastened, so just can ruddiness be only made to pass through, under so just can realizing namely not affecting photosynthetic prerequisite, the temperature in greenhouse can be reduced again, when needs reduce intensity of photosynthesis, shading tent B can be fastened, the secondary spike of illumination can be realized like this to carry out photosynthesis, in addition, central processing unit is connected with communication module, the real time data in booth is sent on mobile phone timely to utilize communication module to say, be convenient to the information grasping booth timely and effectively, be convenient to management, and, can by the radio receiving transmitting module arranged, intelligent remote controller is utilized to carry out remote control adjustment, finally, central processing unit is connected with mixed-media network modules mixed-media, remote server is connected with by mixed-media network modules mixed-media, utilize the connection of mobile phone terminal and remote server, just can realize staying indoors and carry out the Long-distance Control of green house and the process of data, the utility model has reasonable in design, easy to adjust, be convenient to remote monitoring control, the advantage that automaticity is high.

Embodiment 2

As shown in Figure 1: a kind of automated greenhouse booth daylight regulating system, it comprises central processing unit, described central processing unit is connected with input module, output module, display module, memory module, radio receiving transmitting module, mixed-media network modules mixed-media, communication module, man-machine interface and power module, and described input module is connected with photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors, described output module is connected with motor A, motor B and motor C, described motor A is connected with sunshade, described motor B is connected with optical filtering canopy A, described motor C is connected with optical filtering canopy C, described display module is connected with display, described memory module is connected with memory, described radio receiving transmitting module is connected with intelligent remote controller by wireless signal, described mixed-media network modules mixed-media is connected with remote server by optical fiber or WiFi, and described remote server is connected with mobile phone terminal.

Described communication module comprises remote communication module, RS-485 communication module, wireless communication module, 232 communication modules.

Described photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors is at least set to two respectively.

Described optical filtering canopy A is set to only by ruddiness.

Described optical filtering canopy B is set to only by blue light and purple light.

Described communication module is connected with mobile phone terminal by wireless signal.

A kind of automated greenhouse booth of the utility model daylight regulating system, adopts intelligentized regulable control, by monitoring green house, and temperature, humidity, intensity of illumination and CO ₂the change of concentration, in conjunction with the growth period of crop, the rational day illumination intensity regulating needs, when needs reduce day illumination intensity, can by the output module starter motor A of central processing unit, shading tent is turned down, regulating illumination intensity that so just can be real-time, in addition, when needs increase intensity of photosynthesis, this is can by controlling motor B, shading tent A is fastened, so just can ruddiness be only made to pass through, under so just can realizing namely not affecting photosynthetic prerequisite, the temperature in greenhouse can be reduced again, when needs reduce intensity of photosynthesis, shading tent B can be fastened, the secondary spike of illumination can be realized like this to carry out photosynthesis, in addition, central processing unit is connected with communication module, the real time data in booth is sent on mobile phone timely to utilize communication module to say, be convenient to the information grasping booth timely and effectively, be convenient to management, and, can by the radio receiving transmitting module arranged, intelligent remote controller is utilized to carry out remote control adjustment, finally, central processing unit is connected with mixed-media network modules mixed-media, remote server is connected with by mixed-media network modules mixed-media, utilize the connection of mobile phone terminal and remote server, just can realize staying indoors and carry out the Long-distance Control of green house and the process of data, the utility model has reasonable in design, easy to adjust, be convenient to remote monitoring control, the advantage that automaticity is high.

Claims (6)

1. an automated greenhouse booth daylight regulating system, it comprises central processing unit, it is characterized in that: described central processing unit is connected with input module, output module, display module, memory module, radio receiving transmitting module, mixed-media network modules mixed-media, communication module, man-machine interface and power module, described input module is connected with photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors, described output module is connected with motor A, motor B and motor C, described motor A is connected with sunshade, described motor B is connected with optical filtering canopy A, described motor C is connected with optical filtering canopy C, described display module is connected with display, described memory module is connected with memory, described radio receiving transmitting module is connected with intelligent remote controller by wireless signal, described mixed-media network modules mixed-media is connected with remote server by optical fiber or WiFi, and described remote server is connected with mobile phone terminal.

2. a kind of automated greenhouse booth daylight regulating system according to claim 1, is characterized in that: described communication module comprises remote communication module, RS-485 communication module, wireless communication module, 232 communication modules.

3. a kind of automated greenhouse booth daylight regulating system according to claim 1, is characterized in that: described photosynthetic radiation sensor, temperature sensor, humidity sensor and CO ₂concentrations detectors is at least set to two respectively.

4. a kind of automated greenhouse booth daylight regulating system according to claim 1, is characterized in that: described optical filtering canopy A is set to only by ruddiness.

5. a kind of automated greenhouse booth daylight regulating system according to claim 1, is characterized in that: described optical filtering canopy B is set to only by blue light and purple light.

6. a kind of automated greenhouse booth daylight regulating system according to claim 1, is characterized in that: described communication module is connected with mobile phone terminal by wireless signal.