CN105676925A - Mushroom greenhouse environment factor adjustment system - Google Patents
Mushroom greenhouse environment factor adjustment system Download PDFInfo
- Publication number
- CN105676925A CN105676925A CN201610199233.8A CN201610199233A CN105676925A CN 105676925 A CN105676925 A CN 105676925A CN 201610199233 A CN201610199233 A CN 201610199233A CN 105676925 A CN105676925 A CN 105676925A
- Authority
- CN
- China
- Prior art keywords
- zigbee
- motor driver
- connects
- iii
- route network
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D27/00—Simultaneous control of variables covered by two or more of main groups G05D1/00 - G05D25/00
- G05D27/02—Simultaneous control of variables covered by two or more of main groups G05D1/00 - G05D25/00 characterised by the use of electric means
Abstract
The invention relates to a mushroom greenhouse environment factor adjustment system. The mushroom greenhouse environment factor adjustment system is characterized in that the mushroom greenhouse environment factor adjustment system comprises a main controller (1), an environmental information acquisition system (2), a memory (3), a data processing module (4), a humidity adjustment and control system (7), a temperature adjustment and control system (8), a sun shading heat preservation system (9), a ventilation system (10) and an information transmission system; the environmental information acquisition system (2), the memory (3), the data processing module (4), the humidity adjustment and control system (7), the temperature adjustment and control system (8), the sun shading heat preservation system (9) and the ventilation system (10) are connected with the main controller (1) through a bus; the environmental information acquisition system (2) is responsible for the acquisition of greenhouse environment information; the information transmission system includes a touch screen module (13) or a WIFI module (12) or a short message sending module (11) or a local area network (5) and a cloud processing server (6) or the combination of the touch screen module (13), the WIFI module (12), the a short message sending module (11) and the local area network (5).
Description
Technical field
The invention belongs to agricultural engineering technology field, be specifically related to a kind of mushroom greenhouse environment factor and regulate system.
Background technology
The environmental factors affecting mushroom growth has: temperature, moisture (humidity, including the moisture in bacterium rod and the moisture in growing environment), light, air (O2 and CO2 concentration), PH etc.
Along with society and economic development, factorial praluction edible fungi has become development trend, in modern large greenhouse, the monitoring of envirment factor, sensing, the adjustment such as the epidemic disaster of Indoor Temperature, wet, light, gas and soil, all carried out integrated management by computer, automatically controlled. But, current China industrialized agriculture is just at the early-stage, the environment conditioning ability in mushroom greenhouse, mainly according to manager personal experience and subjective sensation, decision-making is extensive, it is only applicable to small-scale greenhouse management, in large-area mushroom greenhouse, carries out partition management according to the different growth periods of mushroom, simultaneously will to whole mushroom production process, it is monitored and controls, artificial environment conditioning experience and way, just inoperative. Therefore; study the environmental control of greenhouse system of a applicable mushroom growth; to mushroom production process; carry out scientific management and control; yield and the quality of mushroom can be improved; will make greater efforts to promote the batch production of Mushroom production, scale and scientific management, thus realizing the scale of mushroom industry, high yield, excellent product and sustainable development.
Summary of the invention
In order to solve the technical problem of above-mentioned existence, the present invention devises a kind of mushroom greenhouse environment factor and regulates system.
In order to solve the technical problem of above-mentioned existence, present invention employs below scheme:
A kind of mushroom greenhouse environment factor regulates system, it is characterised in that: include master controller (1), environment information acquisition system (2), memorizer (3), data processing module (4), humidity regulation system (7), temperature regulation system (8), sunshading and thermal insulating system (9) and air exchange system (10);Environment information acquisition system (2), memorizer (3), data processing module (4), humidity regulation system (7), temperature regulation system (8), sunshading and thermal insulating system (9), air exchange system (10) are connected respectively through bus with master controller (1); Environment information acquisition system (2) is responsible for the collection of greenhouse environment information.
Further, also including message transfer system, message transfer system is responsible for greenhouse environment parameter and regulation and control data are sent to client terminal; Message transfer system includes the combination of any three or aforementioned four in any two or aforementioned four in touch screen module (13) or WIFI module (12) or SMS transmission module (11) or LAN (5) and cloud processing server (6) or aforementioned four.
Further, touch screen module (13), WIFI module (12), SMS transmission module (11) are connected respectively through bus with controller (1); Connected by netting twine between controller (1), LAN (5), cloud processing server (6) or wireless network connects; Short message transceiving module (11), WIFI module (12) and remote terminal (14) wireless connections.
Further, humidity regulation system (7) includes ZigBee coordinator I (71), route network I (72), multiple ZigBee terminal I (73), humidification water pump motor driver (74), humidification water pump (75), multiple humidifier tube way solenoid valve (76), multiple dehumidifying blower motor driver (77) and multiple dehumidifying blower fan (78); Route network I (72) respectively with ZigBee coordinator I (71) and multiple ZigBee terminal I (73) wireless connections, ZigBee coordinator I (71) is connected with master controller (1) bus; Humidification water pump motor driver (74) connects with corresponding ZigBee terminal I (73) and humidification water pump (75) circuit respectively; Humidifier tube way solenoid valve (76) connects with corresponding ZigBee terminal I (73) circuit; Dehumidifying blower motor driver (77) connects with corresponding ZigBee terminal I (73) and dehumidifying blower fan (78) circuit respectively.
Further, route network I (72) comprises multiple router I (721), the wireless connections of multiple router I (721), constitutes route network I (72).
Further, temperature regulation system (8) includes ZigBee coordinator II (81), route network II (82), multiple ZigBee terminals II (83), cascade pump motor driver (84), cascade water pump (85), multiple granulating screen way solenoid valve (86), multiple heat-exchange fan motor driver (87) and multiple heat-exchange fan (88); Route network II (82) respectively with ZigBee coordinator II (81) and multiple ZigBee terminal II (83) wireless connections, ZigBee coordinator II (81) is connected with master controller (1) bus; Cascade pump motor driver (84) connects with corresponding ZigBee terminal II (83) and cascade water pump (85) circuit respectively; Humidification water shade tube way solenoid valve (86) connects with corresponding ZigBee terminal II (83) circuit; Heat-exchange fan motor driver (87) connects with corresponding ZigBee terminal II (83) and heat-exchange fan (88) circuit respectively.
Further, route network II (82) comprises multiple router II (821), the wireless connections of multiple router II (821), constitutes route network II (82).
Further, sunshading and thermal insulating system (9) includes ZigBee coordinator III (91), route network III (92), multiple ZigBee terminal III (93), multiple outer sun-shading curtain motor driver (94), multiple outer sun-shading curtain motor (95), multiple internal sunshade curtain motor driver (96), multiple internal sunshade curtain motor (97), multiple external thermal insulation curtain motor driver (98), multiple external thermal insulation curtain motor (99), multiple inside holding curtain motor driver (910) and multiple inside holding curtain motor (911); Route network III (92) respectively with ZigBee coordinator III (91) and multiple ZigBee terminal III (93) wireless connections, ZigBee coordinator III (91) is connected with master controller (1) bus; Outer sun-shading curtain motor driver (94) connects with corresponding ZigBee terminal III (93) and outer sun-shading curtain motor (95) circuit respectively; Internal sunshade curtain motor driver (96) connects with corresponding ZigBee terminal III (93) and internal sunshade curtain motor (97) circuit respectively; External thermal insulation curtain motor driver (98) connects with corresponding ZigBee terminal III (93) and external thermal insulation curtain motor (99) circuit respectively; Inside holding curtain motor driver (910) connects with corresponding ZigBee terminal III (93) and inside holding curtain motor (911) circuit respectively.
Further, route network III (92) comprises multiple router III (921), and the wireless connections of multiple router III (921) constitute route network III (92).
Further, air exchange system (10) includes ZigBee coordinator IV (101), route network IV (102), multiple ZigBee terminal IV (103), multiple ventilating fan motor driver (104), multiple ventilating fan (105), multiple air exhauster motor driver (106) and multiple air exhauster (107); Route network IV (102) respectively with ZigBee coordinator IV (101) and multiple ZigBee terminal IV (103) wireless connections, ZigBee coordinator IV (101) is connected with master controller (1) bus; Ventilating fan motor driver (104) connects with corresponding ZigBee terminal IV (103) and ventilating fan (105) circuit respectively; Air exhauster driver (106) connects with corresponding ZigBee terminal IV (103) and air exhauster (107) circuit respectively.
Further, route network IV (102) includes multiple router IV (1021), and the wireless connections of multiple router IV (1021) constitute route network IV (102).
Further, environment information acquisition system (2) includes in greenhouse soil information collecting system and bacterium rod internal information acquisition system in air information acquisition system, greenhouse.
This mushroom greenhouse environment factor regulates system and has the advantages that
(1) present invention can detect the envirment factor in mushroom greenhouse on time automatically, and each envirment factor after treatment, is adjusted by data, improves yield and the quality of mushroom, and system is installed simple, maintenance, easy maintenance, can alleviate the labor intensity of peasant.
(2) peasant household of the present invention can by the concrete regulation and control of WiFi and touch screen query greenhouse environment factor near greenhouse, the place distant from greenhouse, note or Cloud Server can be passed through, obtain greenhouse environment parameter regulation and control data, alleviate peasant's frequency and change the worry of manual operation, ensure Agaricus edibilis student's length, improve yield and the quality of mushroom. This system effectiveness is higher, and maintaining is simple, quick, and system wireless collection is suitably applied the improvement in existing mushroom greenhouse.
(3) in the present invention, touch screen module, WIFI module, SMS transmission module, LAN and cloud processing server can all be arranged, can also individual event be arranged in mushroom greenhouse environment factor adjustment system use, or optional two are arranged in this mushroom greenhouse environment factor adjustment system and convey information to client in four, or optional three are arranged in this mushroom greenhouse environment factor adjustment system and convey information to client in four, applying flexible, facilitate the transmission of data, the structure of specialist system is cultivated for mushroom greenhouse, the data investigation of agricultural sector, breeding environment cytokine regulatory model optimization, agricultural product are traced to the source and quality guarantee, Data Source is provided.
Accompanying drawing explanation
Fig. 1: mushroom greenhouse environment factor of the present invention regulates the structural representation of system;
Fig. 2: the structural representation of humidity regulation system in the present invention;
Fig. 3: the structural representation of temperature regulation system in the present invention;
Fig. 4: the structural representation of sunshading and thermal insulating system in the present invention;
Fig. 5: the structural representation of air exchange system in the present invention.
Description of reference numerals:
1 master controller; 2 environment information acquisition systems; 3 memorizeies; 4 data processing modules; 5 LANs; 6 cloud processing servers; 7 humidity regulation systems; 71 ZigBee coordinators I; 72 route networks I; 721 routers I; 73 ZigBee terminals I; 74 humidification water pump motor drivers; 75 humidification water pumps; 76 humidifier tube way solenoid valves; 77 dehumidifying blower motor drivers; 78 dehumidifying blower fans; 8 temperature regulation system; 81 ZigBee coordinators II; 82 route networks II; 821 routers II; 83 ZigBee terminals II; 84 cascade pump motor drivers; 85 cascade water pumps; 86 granulating screen way solenoid valves; 87 heat-exchange fan motor drivers; 88 heat-exchange fan I; 9 sunshading and thermal insulating systems; 91 ZigBee coordinators III; 92 route networks III; 921 routers III; 93 ZigBee terminals III; 94 outer sun-shading curtain motor drivers; 95 outer sun-shading curtain motors; 96 internal sunshade curtain motor drivers; 97 internal sunshade curtain motors; 98 heat holding curtain motor drivers; 99 external thermal insulation curtain motors; 910 inside holding curtain motor drivers; 911 inside holding curtain motors; 10 air exchange systems; 101 ZigBee coordinators IV; 102 route networks IV; 1021 routers IV; 103 ZigBee terminals IV; 104 ventilating fan motor drivers; 105 ventilating fans; 106 air exhauster motor drivers; 107 air exhausters; 11 short message transceiving module; 12 WiFi module; 13 touch screen modules; 14 remote terminals.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention will be further described:
Fig. 1 illustrates that a kind of mushroom greenhouse environment factor regulates system, including master controller 1, environment information acquisition system 2, memorizer 3, data processing module 4, LAN 5, cloud processing server 6, humidity regulation system 7, temperature regulation system 8, sunshading and thermal insulating system 9, air exchange system 10, short message transceiving module 11, WIFI module 12, touch screen module 13 and remote terminal 14. Environment information acquisition system 2, memorizer 3, data processing module 4, humidity regulation system 7, temperature regulation system 8, sunshading and thermal insulating system 9, air exchange system 10, short message transceiving module 11, WIFI module 12 and touch screen module 13 are connected with master controller 1 bus, LAN 5, it is connected with master controller 1 and cloud processing server 6 network respectively, short message transceiving module 11, WIFI module 12 and remote terminal 14 wireless connections.Environment information acquisition system 2 includes in greenhouse soil information collecting system and bacterium rod internal information acquisition system in air information acquisition system, greenhouse.
The information that 1 environment information acquisition system 2 of master controller collects is sent to data processing module 4 and processes, then call humidity regulation system 7, temperature regulation system 8, sunshading and thermal insulating system 9 and air exchange system 10 respectively further according to result, booth is overall or local envirment factor regulates and controls. The envirment factor of detection, result leave in memorizer 3. Greenhouse environment factor and concrete regulation measure can be inquired about by WIFI module 12 or touch screen module 13 near greenhouse by peasant household; The place distant from greenhouse, by short message transceiving module 11, greenhouse environment factor and concrete regulation measure can be sent to the intelligent terminal such as mobile phone, iPad, or by LAN 5, it is sent to cloud processing server 6, greenhouse environment parameter and regulation and control data are obtained again through the intelligent terminal such as mobile phone, notebook, alleviate peasant's frequency and change manual operation, worry day and night on duty, ensure Agaricus edibilis student's length simultaneously, improve yield and the quality of mushroom.
As depicted in figs. 1 and 2, humidity regulation system 7 includes I 71, route network I 72 of a ZigBee coordinator, I 73, humidification water pump motor driver 74 of multiple ZigBee terminals, one humidification water pump 75, multiple humidifier tube way solenoid valves 76, multiple dehumidifying blower motor drivers 77 and multiple dehumidifying blower fan 78. Route network I 72 comprises multiple router I 721, the wireless connections of multiple router I 721, constitutes route network I 72; Route network I 72, respectively with ZigBee coordinator I 71 and the wireless connections of multiple ZigBee terminal I 73, ZigBee coordinator I 71 is connected with master controller 1 bus. Humidification water pump motor driver 74 connects with corresponding ZigBee terminal I 73 and humidification water pump 75 circuit respectively; Humidifier tube way solenoid valve 76 connects with corresponding ZigBee terminal I 73 circuit. Dehumidifying blower motor driver 77 connects with corresponding ZigBee terminal I 73 and dehumidifying blower fan 78 circuit respectively.
The information that data processing module 4 gathers according to environment information acquisition system 2, and the prestored information stored in memorizer 3, control law, be calculated, process, concrete humidity regulation task is sent to master controller 1; If regulation and control task is humidification, master controller 1 is by ZigBee coordinator I 71, route network I 72, humidification information is sent to the ZigBee terminal I 73 of correspondence, drive humidification water pump motor driver 74, open humidification water pump 75 and corresponding humidifier tube way solenoid valve 76, carry out mushroom greenhouse entirety humidification or region humidification; If regulation and control task is dehumidifying, master controller 1, by ZigBee coordinator I 71, route network I 72, is sent to dehumidifying information the ZigBee terminal I 73 of correspondence, drives dehumidifying blower motor driver 77, open dehumidifying blower fan 78, carry out mushroom greenhouse entirety dehumidifying or region dehumidifying; The information gathered when environment information acquisition system 2 shows that the humidity in booth or region reaches target, or timing arrives, and stops humidification or dehumidifying.
As shown in figures 1 and 3, temperature regulation system 8 includes II 81, route network II 82 of a ZigBee coordinator, II 83, cascade pump motor driver 84 of multiple ZigBee terminals, one cascade water pump 85, multiple granulating screen way solenoid valves 86, multiple heat-exchange fan motor drivers 87 and multiple heat-exchange fan 88.Route network II 82 comprises multiple router II 821, the wireless connections of multiple router II 821, constitutes route network II 82; Route network II 82 respectively with ZigBee coordinator II 81 and the wireless connections of multiple ZigBee terminal II 83, ZigBee coordinator II 81 is connected with master controller 1 bus. Cascade pump motor driver 84 connects with corresponding ZigBee terminal II 83 and cascade water pump 85 circuit respectively; Humidification water shade tube way solenoid valve 86 connects with corresponding ZigBee terminal II 83 circuit. Heat-exchange fan motor driver 87 connects with corresponding ZigBee terminal II 83 and heat-exchange fan 88 circuit respectively.
The information that data processing module 4 gathers according to environment information acquisition system 2, and the prestored information stored in memorizer 3, control law, it is calculated, processes, concrete temperature adjusting task is sent to master controller 1, if regulation and control task is cooling, master controller 1 is by ZigBee coordinator II 81, route network II 82, cooling information is sent to the ZigBee terminal II 83 of correspondence, drive cascade pump motor driver 84, open cascade water pump 75, with corresponding granulating screen way solenoid valve 86, carry out mushroom greenhouse entirety cooling or region cooling; If regulation and control task is for heating up, master controller 1, by ZigBee coordinator II 81, route network II 82, is sent to intensification information the ZigBee terminal II 83 of correspondence, drives heat-exchange fan motor driver 87, open heat-exchange fan 78, carry out mushroom greenhouse entirety intensification or heat up in region; The information gathered when environment information acquisition system 2 shows that the temperature in booth or region reaches target, or timing arrives, and stops cooling or heats up.
As shown in Figure 1 and Figure 4, sunshading and thermal insulating system 9 includes a ZigBee coordinator III 91, one route network III 92, multiple ZigBee terminals III 93, multiple outer sun-shading curtain motor drivers 94, multiple outer sun-shading curtain motors 95, multiple internal sunshade curtain motor drivers 96, multiple internal sunshade curtain motors 97, multiple external thermal insulation curtain motor drivers 98, multiple external thermal insulation curtain motors 99, multiple inside holding curtain motor drivers 910 and multiple inside holding curtain motor 911. Route network III 92 comprises multiple router III 921, and the wireless connections of multiple router III 921 constitute route network III 92; Route network III 92 respectively with ZigBee coordinator III 91 and the wireless connections of multiple ZigBee terminal III 93, ZigBee coordinator III 91 is connected with master controller 1 bus. Outer sun-shading curtain motor driver 94 connects with corresponding ZigBee terminal III 93 and outer sun-shading curtain motor 95 circuit respectively; Internal sunshade curtain motor driver 96 connects with corresponding ZigBee terminal III 93 and internal sunshade curtain motor 97 circuit respectively; External thermal insulation curtain motor driver 98 connects with corresponding ZigBee terminal III 93 and external thermal insulation curtain motor 99 circuit respectively; Inside holding curtain motor driver 910 connects with corresponding ZigBee terminal III 93 and inside holding curtain motor 911 circuit respectively.
The information that data processing module 4 gathers according to environment information acquisition system 2, and the prestored information of storage in memorizer 3, control law, it is calculated, process, concrete sunshading and thermal insulating regulation and control task, it is sent to master controller 1, if regulation and control task is sunshade, master controller 1 is by ZigBee coordinator III 91, route network III 92, sunshade information is sent to the ZigBee terminal III 93 of correspondence, drive corresponding outer sun-shading curtain motor driver 94 and internal sunshade curtain motor driver 96, open corresponding outer sun-shading curtain motor 95 and outer sun-shading curtain motor 97, to mushroom greenhouse entirety sunshade or region sunshade,If regulation and control task is insulation, master controller 1 is by ZigBee coordinator III 91, route network III 92, insulation information is sent to the ZigBee terminal III 93 of correspondence, drive corresponding external thermal insulation curtain motor driver 98 and inside holding curtain motor driver 910, open corresponding external thermal insulation curtain motor 99 and external thermal insulation curtain motor 911, mushroom greenhouse is overall or region insulation; The information gathered when environment information acquisition system 2 shows, temperature outside the light intensity in mushroom greenhouse or region and booth, reaches target, or timing arrives, and stops sunshade or insulation.
As shown in Figure 1 and Figure 5, air exchange system 10 includes a ZigBee coordinator IV 101, a route network IV 102, multiple ZigBee terminals IV 103, multiple ventilating fan motor drivers 104 and multiple ventilating fan 105, multiple air exhauster motor drivers 106 and multiple air exhauster 107. Route network IV 102 includes multiple router IV 1021, and the wireless connections of multiple router IV 1021 constitute route network IV 102; Route network IV 102 respectively with ZigBee coordinator IV 101 and the wireless connections of multiple ZigBee terminal IV 103, ZigBee coordinator IV 101 is connected with master controller 1 bus. Ventilating fan motor driver 104 connects with corresponding ZigBee terminal IV 103 and ventilating fan 105 circuit respectively; Air exhauster driver 106 connects with corresponding ZigBee terminal IV 103 and air exhauster 107 circuit respectively.
The information that data processing module 4 gathers according to environment information acquisition system 2, and the prestored information stored in memorizer 3, control law, be calculated, process, concrete O2、CO2Regulation and control task is sent to master controller 1, master controller 1 is by ZigBee coordinator IV 101, route network IV 102, air inlet information, exhaust information, it is sent respectively to the ZigBee terminal IV 103 of correspondence, drives ventilating fan motor driver 104, open ventilating fan 105, drive air exhauster motor driver 106, open air exhauster 107, carry out mushroom greenhouse overall gas concentration and regulate, or the adjustment of gas concentration in region; The information gathered when environment information acquisition system 2 shows that the gas concentration in booth or region reaches target, or timing arrives, and stops gas concentration regulation and control.
Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, the regulation and control flow process of system entirety is: the information that 1 environment information acquisition system 2 of master controller collects, it is sent to data processing module 4 to process, according to result, call humidity regulation system 7 respectively, temperature regulation system 8, sunshading and thermal insulating system 9 and air exchange system 10, booth is overall or local envirment factor regulates and controls, the envirment factor of detection, result leaves in memorizer 3, peasant household can pass through WIFI module 12 and touch screen module 13 near greenhouse, inquiry greenhouse environment factor and concrete regulation measure, alleviate peasant's frequency and change manual operation, worry day and night on duty, ensure Agaricus edibilis student's length simultaneously, improve yield and the quality of mushroom. the place distant from greenhouse, agricultural sector staff, scientific research personnel, and the mushroom breeding enterprise staff of corporatization operation, or buyer, short message transceiving module 11 can be passed through and transmit machine in one's hands, the intelligent terminal such as iPad, or by LAN 5, it is sent to cloud processing server 6, again through hands machine, the intelligent terminal such as notebook obtain greenhouse environment parameter and regulation and control data, the structure of specialist system is cultivated for mushroom greenhouse, the data investigation of agricultural sector, breeding environment cytokine regulatory model optimization, agricultural product are traced to the source and quality guarantee, Data Source is provided.
Mushroom greenhouse environment factor of the present invention regulates system, simple in construction, is substantially wireless connections, easy to use and flexible, can be applicable to existing mushroom greenhouse between modules, with low cost, and maintaining is simple, quick.
In the present invention, touch screen module 13, WIFI module 12, SMS transmission module 11, LAN 5 and cloud processing server 6 can all be arranged, can also individual event be arranged in mushroom greenhouse environment factor adjustment system use, or optional two are arranged in this mushroom greenhouse environment factor adjustment system to convey information to client in four, or in four optional three be arranged in this mushroom greenhouse environment factor adjustment system and convey information to client. Especially the use of the combination of LAN 5 and cloud processing server 6 and other modes, facilitates the transmission of data, cultivates the structure of specialist system for mushroom greenhouse, the data investigation of agricultural sector, breeding environment cytokine regulatory model optimization, agricultural product are traced to the source and quality guarantee, it is provided that Data Source.
Above in conjunction with accompanying drawing, the present invention is carried out exemplary description; the realization of the obvious present invention is not subject to the restrictions described above; as long as have employed the various improvement that the design of the method for the present invention carries out with technical scheme; or the not improved design by the present invention and technical scheme directly apply to other occasion, all in protection scope of the present invention.
Claims (10)
1. a mushroom greenhouse environment factor regulates system, it is characterised in that: include master controller (1), environment information acquisition system (2), memorizer (3), data processing module (4), humidity regulation system (7), temperature regulation system (8), sunshading and thermal insulating system (9) and air exchange system (10); Environment information acquisition system (2), memorizer (3), data processing module (4), humidity regulation system (7), temperature regulation system (8), sunshading and thermal insulating system (9), air exchange system (10) are connected respectively through bus with master controller (1); Environment information acquisition system (2) is responsible for the collection of greenhouse environment information.
2. mushroom greenhouse environment factor according to claim 1 regulates system, it is characterised in that: humidity regulation system (7) includes ZigBee coordinator I (71), route network I (72), multiple ZigBee terminal I (73), humidification water pump motor driver (74), humidification water pump (75), multiple humidifier tube way solenoid valve (76), multiple dehumidifying blower motor driver (77) and multiple dehumidifying blower fan (78); Route network I (72) respectively with ZigBee coordinator I (71) and multiple ZigBee terminal I (73) wireless connections, ZigBee coordinator I (71) is connected with master controller (1) bus; Humidification water pump motor driver (74) connects with corresponding ZigBee terminal I (73) and humidification water pump (75) circuit respectively; Humidifier tube way solenoid valve (76) connects with corresponding ZigBee terminal I (73) circuit; Dehumidifying blower motor driver (77) connects with corresponding ZigBee terminal I (73) and dehumidifying blower fan (78) circuit respectively.
3. mushroom greenhouse environment factor according to claim 2 regulates system, it is characterised in that: route network I (72) comprises multiple router I (721), the wireless connections of multiple router I (721), constitutes route network I (72).
4. the mushroom greenhouse environment factor according to claim 1,2 or 3 regulates system, it is characterized in that: temperature regulation system (8) includes ZigBee coordinator II (81), route network II (82), multiple ZigBee terminals II (83), cascade pump motor driver (84), cascade water pump (85), multiple granulating screen way solenoid valve (86), multiple heat-exchange fan motor driver (87) and multiple heat-exchange fan (88);Route network II (82) respectively with ZigBee coordinator II (81) and multiple ZigBee terminal II (83) wireless connections, ZigBee coordinator II (81) is connected with master controller (1) bus; Cascade pump motor driver (84) connects with corresponding ZigBee terminal II (83) and cascade water pump (85) circuit respectively; Humidification water shade tube way solenoid valve (86) connects with corresponding ZigBee terminal II (83) circuit; Heat-exchange fan motor driver (87) connects with corresponding ZigBee terminal II (83) and heat-exchange fan (88) circuit respectively.
5. mushroom greenhouse environment factor according to claim 4 regulates system, it is characterised in that: route network II (82) comprises multiple router II (821), the wireless connections of multiple router II (821), constitutes route network II (82).
6. according to claim 1, 2, mushroom greenhouse environment factor described in 3 or 5 regulates system, it is characterized in that: sunshading and thermal insulating system (9) includes ZigBee coordinator III (91), route network III (92), multiple ZigBee terminals III (93), multiple outer sun-shading curtain motor drivers (94), multiple outer sun-shading curtain motors (95), multiple internal sunshades curtain motor driver (96), multiple internal sunshades curtain motor (97), multiple external thermal insulation curtain motor driver (98), multiple external thermal insulation curtain motor (99), multiple inside holding curtain motor driver (910) and multiple inside holding curtain motor (911), route network III (92) respectively with ZigBee coordinator III (91) and multiple ZigBee terminal III (93) wireless connections, ZigBee coordinator III (91) is connected with master controller (1) bus, outer sun-shading curtain motor driver (94) connects with corresponding ZigBee terminal III (93) and outer sun-shading curtain motor (95) circuit respectively, internal sunshade curtain motor driver (96) connects with corresponding ZigBee terminal III (93) and internal sunshade curtain motor (97) circuit respectively, external thermal insulation curtain motor driver (98) connects with corresponding ZigBee terminal III (93) and external thermal insulation curtain motor (99) circuit respectively, inside holding curtain motor driver (910) connects with corresponding ZigBee terminal III (93) and inside holding curtain motor (911) circuit respectively.
7. regulate system according to the arbitrary described mushroom greenhouse environment factor of claim 1 to 6, it is characterised in that: air exchange system (10) includes ZigBee coordinator IV (101), route network IV (102), multiple ZigBee terminal IV (103), multiple ventilating fan motor driver (104), multiple ventilating fan (105), multiple air exhauster motor driver (106) and multiple air exhauster (107); Route network IV (102) respectively with ZigBee coordinator IV (101) and multiple ZigBee terminal IV (103) wireless connections, ZigBee coordinator IV (101) is connected with master controller (1) bus; Ventilating fan motor driver (104) connects with corresponding ZigBee terminal IV (103) and ventilating fan (105) circuit respectively; Air exhauster driver (106) connects with corresponding ZigBee terminal IV (103) and air exhauster (107) circuit respectively.
8. regulate system according to the arbitrary described mushroom greenhouse environment factor of claim 1 to 7, it is characterised in that: also including message transfer system, message transfer system is responsible for greenhouse environment parameter and regulation and control data are sent to client terminal;Message transfer system includes the combination of any three or aforementioned four in any two or aforementioned four in touch screen module (13) or WIFI module (12) or SMS transmission module (11) or LAN (5) and cloud processing server (6) or aforementioned four.
9. mushroom greenhouse environment factor according to claim 8 regulates system, it is characterised in that: touch screen module (13), WIFI module (12), SMS transmission module (11) are connected respectively through bus with controller (1); Connected by netting twine between controller (1), LAN (5), cloud processing server (6) or wireless network connects; Short message transceiving module (11), WIFI module (12) and remote terminal (14) wireless connections.
10. regulate system according to the arbitrary described mushroom greenhouse environment factor of claim 1 to 9, it is characterised in that: environment information acquisition system (2) includes in greenhouse soil information collecting system and bacterium rod internal information acquisition system in air information acquisition system, greenhouse.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610199233.8A CN105676925A (en) | 2016-04-02 | 2016-04-02 | Mushroom greenhouse environment factor adjustment system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610199233.8A CN105676925A (en) | 2016-04-02 | 2016-04-02 | Mushroom greenhouse environment factor adjustment system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN105676925A true CN105676925A (en) | 2016-06-15 |
Family
ID=56225055
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610199233.8A Pending CN105676925A (en) | 2016-04-02 | 2016-04-02 | Mushroom greenhouse environment factor adjustment system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN105676925A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106483982A (en) * | 2016-10-25 | 2017-03-08 | 华南师范大学 | A kind of multichannel intelligent sunshade control system |
CN112416036A (en) * | 2020-10-23 | 2021-02-26 | 重庆电子工程职业学院 | Greenhouse environment monitoring system |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102307222A (en) * | 2011-05-07 | 2012-01-04 | 合肥工业大学 | Intelligent greenhouse demonstration measurement and control system based on Internet of things technology |
CN102566545A (en) * | 2012-01-13 | 2012-07-11 | 东南大学 | Multifunctional smart greenhouse remote management system |
CN102629135A (en) * | 2012-04-25 | 2012-08-08 | 上海理工大学 | Wireless traceable mushroom house production management system and method |
CN102736596A (en) * | 2012-06-11 | 2012-10-17 | 南京农业大学 | Multi-scale greenhouse environment control system based on crop information fusion |
CN104714576A (en) * | 2015-02-28 | 2015-06-17 | 孙盼峰 | Intelligent cooperative management system for greenhouse |
CN204496217U (en) * | 2015-03-03 | 2015-07-22 | 四川农业大学 | A kind of mushroom greenhouse growth supervising device |
CN205049965U (en) * | 2015-10-27 | 2016-02-24 | 山东农业大学 | Domestic fungus batch production production environmental monitoring system |
CN205080457U (en) * | 2015-10-22 | 2016-03-09 | 赣州市登峰农业开发有限公司 | Domestic fungus mushroom room environmental information acquisition control device |
CN205563330U (en) * | 2016-04-02 | 2016-09-07 | 西北农林科技大学 | Mushroom greenhouse environmental factor governing system |
-
2016
- 2016-04-02 CN CN201610199233.8A patent/CN105676925A/en active Pending
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102307222A (en) * | 2011-05-07 | 2012-01-04 | 合肥工业大学 | Intelligent greenhouse demonstration measurement and control system based on Internet of things technology |
CN102566545A (en) * | 2012-01-13 | 2012-07-11 | 东南大学 | Multifunctional smart greenhouse remote management system |
CN102629135A (en) * | 2012-04-25 | 2012-08-08 | 上海理工大学 | Wireless traceable mushroom house production management system and method |
CN102736596A (en) * | 2012-06-11 | 2012-10-17 | 南京农业大学 | Multi-scale greenhouse environment control system based on crop information fusion |
CN104714576A (en) * | 2015-02-28 | 2015-06-17 | 孙盼峰 | Intelligent cooperative management system for greenhouse |
CN204496217U (en) * | 2015-03-03 | 2015-07-22 | 四川农业大学 | A kind of mushroom greenhouse growth supervising device |
CN205080457U (en) * | 2015-10-22 | 2016-03-09 | 赣州市登峰农业开发有限公司 | Domestic fungus mushroom room environmental information acquisition control device |
CN205049965U (en) * | 2015-10-27 | 2016-02-24 | 山东农业大学 | Domestic fungus batch production production environmental monitoring system |
CN205563330U (en) * | 2016-04-02 | 2016-09-07 | 西北农林科技大学 | Mushroom greenhouse environmental factor governing system |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106483982A (en) * | 2016-10-25 | 2017-03-08 | 华南师范大学 | A kind of multichannel intelligent sunshade control system |
CN112416036A (en) * | 2020-10-23 | 2021-02-26 | 重庆电子工程职业学院 | Greenhouse environment monitoring system |
CN112416036B (en) * | 2020-10-23 | 2022-06-10 | 重庆电子工程职业学院 | Greenhouse environment monitoring system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN203838580U (en) | A mushroom house environment automatic control system | |
CN205664528U (en) | House ground pipe laying ventilation remote monitering system is bred to animal | |
CN104181887A (en) | Intelligent internet of things control system and method for greenhouse | |
CN204796328U (en) | Vegetables wisdom big -arch shelter based on thing networking | |
CN103907571B (en) | A kind of silkworm room based on Internet of Things hasten the hatching of silkworms control method and system | |
CN104102253A (en) | Intelligent greenhouse environment monitoring system | |
CN205563330U (en) | Mushroom greenhouse environmental factor governing system | |
CN205375248U (en) | Wisdom agricultural control management system based on thing networking | |
CN103292424A (en) | Device and method for controlling energy efficiency operation mode of air conditioner | |
CN107846469A (en) | A kind of intelligent greenhouse monitoring system based on Internet of Things and cloud computing technology | |
CN104571032A (en) | Intelligent greenhouse | |
Siddiqui et al. | Automation and monitoring of greenhouse | |
CN203276003U (en) | Silkworm chamber monitoring system based on Internet of Things | |
CN105676925A (en) | Mushroom greenhouse environment factor adjustment system | |
CN105823509A (en) | Mushroom greenhouse environment monitoring system | |
Bai et al. | The remote monitoring system of vegetable greenhouse | |
CN106773748A (en) | A kind of greenhouse intelligent monitoring system based on Internet of Things | |
CN205038459U (en) | Environment regulation and control system of pouity dwelling place | |
CN205052257U (en) | Edible mushroom fruiting house | |
CN203133576U (en) | Intelligent greenhouse cluster control system | |
CN207299293U (en) | A kind of complete intelligent Total heat exchange fresh air purifying processing system | |
CN208108411U (en) | A kind of grain depot air-conditioner centralized control system using civil air conditioner | |
CN105045320A (en) | Intelligent room type granary | |
CN205028136U (en) | Industrialized agriculture user's action collection system | |
CN109000332B (en) | Night mechanical ventilation cooling energy-saving operation control method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20160615 |