CN204629891U - A kind of self adaptation automated greenhouse booth air cleaning system - Google Patents

Abstract

A kind of self adaptation automated greenhouse booth air cleaning system, it comprises intelligent controller, it is characterized in that: described intelligent controller is connected with input module, output module and memory module, described input module is connected with humidity sensor, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, gas concentration lwevel detector and ammonia concentration detector, described output module connects atomisation device, air cleaning unit, carbon-dioxide generator and new wind blower fan, described air cleaning unit is connected with exhaust blower, described new wind blower fan is connected with active carbon filtering device, described memory module is connected with data logger, the utility model has intellectuality, modularization, systematized advantage.

Description

A kind of self adaptation automated greenhouse booth air cleaning system

Technical field

The utility model relates to booth air purification field, belongs to farm machinery classification, is specifically related to a kind of self adaptation automated greenhouse booth air cleaning system.

Background technology

As everyone knows, in recent years warmhouse booth in China just in develop rapidly, increasing people with warmhouse booth planting vegetable melon and fruit, cultivate flowers and plants, warmhouse booth is apparent in the advantage of agriculture field really, but in the process of vegetables in greenhouse booth melon and fruit, floriculture, airtight owing to arranging, inner air and outer air convective exchange is few, the pernicious gas produced does not distribute not go out, and the growth of these pernicious gases to plant do very large harm; All can apply fertilizer in soil in the process of cultivated plant, ammonia and nitrous acid gas is very easily produced under the hot environment of these fertilizer in booth, the plastic sheeting of warmhouse booth easily produces chlorine, and when in booth, heating heats, the burning of coal or faggot easily produces carbon monoxide and carbon dioxide; When the ammonia concentration in air reach 5 milliliters/when rising, crop will be injured, the leaf margin of the blade that vitality is vigorous and part lobus cardiacus were injured before this, and leaf margin organizes first browning look, rear one-tenth white, withered time serious.If ammonia concentration reach 40 milliliters/when rising, crop can be subject to even more serious harm, even whole strain is dead, when nitrous acid gas concentration in air reach 2 milliliters/rise time crop damage, light then hickie appears in blade, heavy then vein also bleaches, usually be injured close to ground blade heavier, leaf margin can be made to bleach during the too high levels of chlorine in air, withered, time serious, whole blade is dead, carbon dioxide is the necessary raw material of photosynthesis of plant, but excessive carbon dioxide and carbon monoxide can make plant leaf obverse and reverse occur white or brown spot, severe patient can make blade withered.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art and provides a kind of intellectuality, modularization, systematized self adaptation automated greenhouse booth air cleaning system.

The technical solution of the utility model is: a kind of self adaptation automated greenhouse booth air cleaning system, it comprises intelligent controller, described intelligent controller is connected with input module, output module and memory module, described input module is connected with humidity sensor, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, gas concentration lwevel detector and ammonia concentration detector, described output module connects atomisation device, air cleaning unit, carbon-dioxide generator and new wind blower fan, described air cleaning unit is connected with exhaust blower, described new wind blower fan is connected with active carbon filtering device, described memory module is connected with data logger.

The quantity of described input module, described output module is determined according to the quantity of warmhouse booth, and the quantity of the input module of each booth, output module and memory module is 1.

The quantity of described humidity sensor, described chlorine gas concentration detector, described content of nitrogen dioxide detector, described carbonomonoxide concentration detector, described gas concentration lwevel detector and described ammonia concentration detector is determined according to the quantity of warmhouse booth, and the quantity of the humidity sensor of each booth, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, gas concentration lwevel detector and ammonia concentration detector is all at least 3.

The quantity of described atomisation device, described air cleaning unit, described carbon-dioxide generator, described exhaust blower, described new wind blower fan and described active carbon purifying device is determined according to the quantity of warmhouse booth, and the quantity of the atomisation device of each booth, air cleaning unit, carbon-dioxide generator, exhaust blower, new wind blower fan and active carbon purifying device is 1.

The quantity of described intelligent controller and described data logger is 1.

Described humidity sensor, described chlorine gas concentration detector, described content of nitrogen dioxide detector, described carbonomonoxide concentration detector, described gas concentration lwevel detector and the Signal transmissions between described ammonia concentration detector and described input module are wireless transmission.

Described atomisation device, described air cleaning unit, described carbon-dioxide generator and the Signal transmissions between described new wind blower fan and described output module are optical fiber.

The beneficial effects of the utility model are: input module of the present utility model and humidity sensor, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, gas concentration lwevel detector and ammonia concentration detector are wireless connections, which reduces the cabling of booth ceiling, thus save booth utilize space, also the load of booth can not be increased due to some auxiliary accessories of joining during cabling, output module and atomisation fill, air cleaning unit, carbon-dioxide generator and new wind blower fan adopt Optical Fiber Transmission so far, the speed of Optical Fiber Transmission is fast, when detector detect pernicious gas excessive time, corresponding device can make action rapidly, when a kind of content that each detector detects in corresponding pernicious gas is excessive, detector will send alarm signal by module to intelligent controller, controller sends instruction by memory module, data logger action, record the time of detector alarm and the content of pernicious gas, intelligence can send command signal to output module by controller simultaneously, air cleaning unit starts and then exhaust blower and starts, the pure air crossed through purification of air is discharged outside greenhouse chamber through exhaust blower, meanwhile new wind fan starting, new wind blower fan will be filtered that new air fills in booth through active carbon filtering device, thus realize the displacement of air in booth, when humidity sensor to detect in booth air comparatively dry time, alarm signal command is sent to control module, receive signal intelligent controller sends instruction from storing information to memory module, data logger record time of fire alarming and corresponding humidity, intelligent controller sends instruction to output module simultaneously, atomisation device starts, in booth, supplement atomized water, when gas concentration lwevel detector detects that in booth, gas concentration lwevel is too low, instruction is sent to input module, intelligent controller sends storage instruction to memory module, data logger records the concentration of time of fire alarming and carbon dioxide, send instruction to output module simultaneously, carbon-dioxide generator action, supplements corresponding carbon dioxide in booth, after the concentration detecting various gas when detector reaches balance, instruction is sent to input module, intelligent controller sends instruction to memory module and output module, data logger is recorded supplementary new air, is supplemented the time of carbon dioxide and atomization, and atomisation device, air cleaning unit, exhaust blower, carbon-dioxide generator, new wind blower fan are all out of service simultaneously, the utility model has memory function, and drop into the working time of the time of practical early stage according to detector alarm, concentration and generating means, oneself records working trajectory, and in subsequent process, intelligent controller can property performance period start automatically, the utility model has intellectuality, modularization, systematized advantage.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of a kind of self adaptation automated greenhouse of the utility model booth air cleaning system.

In figure: 1, intelligent controller 2, input module 3, output module 4, memory module 5, humidity so answers device 6, chlorine gas concentration detector 7, content of nitrogen dioxide detector 8, carbonomonoxide concentration detector 9, gas concentration lwevel detector 10, ammonia concentration detector 11, atomisation device 12, air cleaning unit 13, carbon dioxide generating device 14, new wind blower fan 15, exhaust blower 16, active carbon filtering device 17, data logger.

Detailed description of the invention

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

Embodiment 1

As shown in Figure 1, a kind of self adaptation automated greenhouse booth air cleaning system, it comprises intelligent controller 1, described intelligent controller 1 is connected with input module 2, output module 3 and memory module 4, described input module 2 is connected with humidity sensor 5, chlorine gas concentration detector 6, content of nitrogen dioxide detector 7, carbonomonoxide concentration detector 8, gas concentration lwevel detector 9 and ammonia concentration detector 10, described output module 3 connects atomisation device 11, air cleaning unit 12, carbon-dioxide generator 13 and new wind blower fan 14, described air cleaning unit 12 is connected with exhaust blower 15, described new wind blower fan 14 is connected with active carbon filtering device 16, described memory module 4 is connected with data logger 17.

When a kind of content that each detector detects in corresponding pernicious gas is excessive, detector will send alarm signal by module to intelligent controller, controller sends instruction by memory module, data logger action, record the time of detector alarm and the content of pernicious gas, intelligence can send command signal to output module by controller simultaneously, air cleaning unit starts and then exhaust blower and starts, the pure air crossed through purification of air is discharged outside greenhouse chamber through exhaust blower, meanwhile new wind fan starting, new wind blower fan will be filtered that new air fills in booth through active carbon filtering device, thus realize the displacement of air in booth, when humidity sensor to detect in booth air comparatively dry time, alarm signal command is sent to control module, receive signal intelligent controller sends instruction from storing information to memory module, data logger record time of fire alarming and corresponding humidity, intelligent controller sends instruction to output module simultaneously, atomisation device starts, in booth, supplement atomized water, when gas concentration lwevel detector detects that in booth, gas concentration lwevel is too low, instruction is sent to input module, intelligent controller sends storage instruction to memory module, data logger records the concentration of time of fire alarming and carbon dioxide, send instruction to output module simultaneously, carbon-dioxide generator action, supplements corresponding carbon dioxide in booth, after the concentration detecting various gas when detector reaches balance, instruction is sent to input module, intelligent controller sends instruction to memory module and output module, data logger is recorded supplementary new air, is supplemented the time of carbon dioxide and atomization, and atomisation device, air cleaning unit, exhaust blower, carbon-dioxide generator, new wind blower fan are all out of service simultaneously, the utility model has memory function, and drop into the working time of the time of practical early stage according to detector alarm, concentration and generating means, oneself records working trajectory, and in subsequent process, intelligent controller can property performance period start automatically, the utility model has intellectuality, modularization, systematized advantage.

Embodiment 2

As shown in Figure 1, a kind of self adaptation automated greenhouse booth air cleaning system, it comprises intelligent controller 1, described intelligent controller 1 is connected with input module 2, output module 3 and memory module 4, described input module 2 is connected with humidity sensor 5, chlorine gas concentration detector 6, content of nitrogen dioxide detector 7, carbonomonoxide concentration detector 8, gas concentration lwevel detector 9 and ammonia concentration detector 10, described output module 3 connects atomisation device 11, air cleaning unit 12, carbon-dioxide generator 13 and new wind blower fan 14, described air cleaning unit 12 is connected with exhaust blower 15, described new wind blower fan 14 is connected with active carbon filtering device 16, described memory module 4 is connected with data logger 17.

The quantity of described input module 2, described output module 3 is determined according to the quantity of warmhouse booth, and the quantity of the input module 2 of each booth, output module 3 and memory module is 1.

The quantity of described humidity sensor 5, described chlorine gas concentration detector 6, described content of nitrogen dioxide detector 7, described carbonomonoxide concentration detector 8, described gas concentration lwevel detector 9 and described ammonia concentration detector 10 is determined according to the quantity of warmhouse booth, and the quantity of the humidity sensor 5 of each booth, chlorine gas concentration detector 6, content of nitrogen dioxide detector 7, carbonomonoxide concentration detector 8, gas concentration lwevel detector 9 and ammonia concentration detector 10 is all at least 3.

The quantity of described atomisation device, described air cleaning unit, described carbon-dioxide generator, described exhaust blower, described new wind blower fan and described active carbon purifying device is determined according to the quantity of warmhouse booth, and the quantity of the atomisation device of each booth, air cleaning unit, carbon-dioxide generator, exhaust blower, new wind blower fan and active carbon purifying device is 1.

The quantity of described intelligent controller 1 and described data logger 17 is 1.

Described humidity sensor 5, described chlorine gas concentration detector 6, described content of nitrogen dioxide detector 7, described carbonomonoxide concentration detector 8, described gas concentration lwevel detector 9 and the Signal transmissions between described ammonia concentration detector 10 and described input module 2 are wireless transmission.

Described atomisation device 11, described air cleaning unit 12, described carbon-dioxide generator 13 and the Signal transmissions between described new wind blower fan 14 and described output module 3 are optical fiber.

Input module of the present utility model and humidity sensor, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, gas concentration lwevel detector and ammonia concentration detector are wireless connections, which reduces the cabling of booth ceiling, thus save booth utilize space, also the load of booth can not be increased due to some auxiliary accessories of joining during cabling, output module and atomisation fill, air cleaning unit, carbon-dioxide generator and new wind blower fan adopt Optical Fiber Transmission so far, the speed of Optical Fiber Transmission is fast, when detector detect pernicious gas excessive time, corresponding device can make action rapidly, when a kind of content that each detector detects in corresponding pernicious gas is excessive, detector will send alarm signal by module to intelligent controller, controller sends instruction by memory module, data logger action, record the time of detector alarm and the content of pernicious gas, intelligence can send command signal to output module by controller simultaneously, air cleaning unit starts and then exhaust blower and starts, the pure air crossed through purification of air is discharged outside greenhouse chamber through exhaust blower, meanwhile new wind fan starting, new wind blower fan will be filtered that new air fills in booth through active carbon filtering device, thus realize the displacement of air in booth, when humidity sensor to detect in booth air comparatively dry time, alarm signal command is sent to control module, receive signal intelligent controller sends instruction from storing information to memory module, data logger record time of fire alarming and corresponding humidity, intelligent controller sends instruction to output module simultaneously, atomisation device starts, in booth, supplement atomized water, when gas concentration lwevel detector detects that in booth, gas concentration lwevel is too low, instruction is sent to input module, intelligent controller sends storage instruction to memory module, data logger records the concentration of time of fire alarming and carbon dioxide, send instruction to output module simultaneously, carbon-dioxide generator action, supplements corresponding carbon dioxide in booth, after the concentration detecting various gas when detector reaches balance, instruction is sent to input module, intelligent controller sends instruction to memory module and output module, data logger is recorded supplementary new air, is supplemented the time of carbon dioxide and atomization, and atomisation device, air cleaning unit, exhaust blower, carbon-dioxide generator, new wind blower fan are all out of service simultaneously, the utility model has memory function, and drop into the working time of the time of practical early stage according to detector alarm, concentration and generating means, oneself records working trajectory, and in subsequent process, intelligent controller can property performance period start automatically, the utility model has intellectuality, modularization, systematized advantage.

Claims (7)

1. a self adaptation automated greenhouse booth air cleaning system, it comprises intelligent controller, it is characterized in that: described intelligent controller is connected with input module, output module and memory module, described input module is connected with humidity sensor, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, gas concentration lwevel detector and ammonia concentration detector, described output module connects atomisation device, air cleaning unit, carbon-dioxide generator and new wind blower fan, described air cleaning unit is connected with exhaust blower, described new wind blower fan is connected with active carbon filtering device, described memory module is connected with data logger.

2. a kind of self adaptation automated greenhouse booth air cleaning system according to claim 1, it is characterized in that: the quantity of described input module, described output module is determined according to the quantity of warmhouse booth, the quantity of the input module of each booth, output module and memory module is 1.

3. a kind of self adaptation automated greenhouse booth air cleaning system according to claim 1, it is characterized in that: described humidity sensor, described chlorine gas concentration detector, described content of nitrogen dioxide detector, described carbonomonoxide concentration detector, the quantity of described gas concentration lwevel detector and described ammonia concentration detector is determined according to the quantity of warmhouse booth, the humidity sensor of each booth, chlorine gas concentration detector, content of nitrogen dioxide detector, carbonomonoxide concentration detector, the quantity of gas concentration lwevel detector and ammonia concentration detector is all at least 3.

4. a kind of self adaptation automated greenhouse booth air cleaning system according to claim 1, it is characterized in that: the quantity of described atomisation device, described air cleaning unit, described carbon-dioxide generator, described exhaust blower, described new wind blower fan and described active carbon purifying device is determined according to the quantity of warmhouse booth, the quantity of the atomisation device of each booth, air cleaning unit, carbon-dioxide generator, exhaust blower, new wind blower fan and active carbon purifying device is 1.

5. a kind of self adaptation automated greenhouse booth air cleaning system according to claim 1, is characterized in that: the quantity of described intelligent controller and described data logger is 1.

6. a kind of self adaptation automated greenhouse booth air cleaning system according to claim 1, is characterized in that: described humidity sensor, described chlorine gas concentration detector, described content of nitrogen dioxide detector, described carbonomonoxide concentration detector, described gas concentration lwevel detector and the Signal transmissions between described ammonia concentration detector and described input module are wireless transmission.

7. a kind of self adaptation automated greenhouse booth air cleaning system according to claim 1, is characterized in that: described atomisation device, described air cleaning unit, described carbon-dioxide generator and the Signal transmissions between described new wind blower fan and described output module are optical fiber.