CN208606796U - Temperature, humidity on-line checking, monitoring system during a kind of mow-drying - Google Patents
Temperature, humidity on-line checking, monitoring system during a kind of mow-drying Download PDFInfo
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- CN208606796U CN208606796U CN201821070813.8U CN201821070813U CN208606796U CN 208606796 U CN208606796 U CN 208606796U CN 201821070813 U CN201821070813 U CN 201821070813U CN 208606796 U CN208606796 U CN 208606796U
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Abstract
The utility model belongs to temperature, humidity on-line checking, monitoring technical field, more particularly to temperature, humidity on-line checking, the monitoring system during a kind of mow-drying, system includes control centre, Internet of Things Zigbee node, wireless communication node, is mounted on dry indoor temperature sensor and humidity sensor and input and output material controller;Node, Internet of Things Zigbee node and control centre carry out real time communication by wireless communication for the temperature sensor and humidity sensor;The control centre is issued to omnidirectional camera, power supply and input and output material controller and is instructed by Internet of Things Zigbee node, wireless communication node, the utility model will realize the real-time temperature and humidity measure of wireless and passive, monitoring mode, solve the problems, such as conventional temperature during mow-drying, Humidity Detection, monitoring technology adaptability and in terms of exist.
Description
Technical field
The utility model belongs to temperature, humidity on-line checking, monitoring technical field, and in particular to a kind of mow-drying process
In temperature, humidity on-line checking, monitoring system.
Background technique
Currently, herbage is feed important in animal husbandry, herbage needs to be saved for a long time to be commercialized and to transport,
Harvested herbage is needed to remove moisture therein by dryer, but mow-drying device at present, structure is simple, and herbage is dry
Dry low efficiency, poor quality, intensity of workers are big;It needs constantly to heat at runtime, temperature constantly rises, and has easily caused
Fire or explosion, cause the heavy losses of property and life safety accident.Therefore, the temperature during mow-drying, humidity are examined online
It surveys, monitoring system increasingly obtains both domestic and external being widely recognized as and paying attention to.
Utility model content
For above-mentioned problems of the prior art and deficiency, it is dry that the utility model provides a kind of high grass of stability
Temperature, humidity on-line checking, monitoring system in the process.
To achieve the above object, the utility model provides the following technical solutions:
Temperature, humidity on-line checking, monitoring system during a kind of mow-drying, the system includes in control
The heart, Internet of Things Zigbee node, wireless communication node, be mounted on dry indoor temperature sensor and humidity sensor and into
Discharge controller;The temperature sensor and humidity sensor node, Internet of Things Zigbee node and control by wireless communication
Center carries out real time communication, and the wireless communication node is connect with omnidirectional camera and power supply respectively, the power supply and Quan Fang
Position camera connection;The control centre is by Internet of Things Zigbee node, wireless communication node to omnidirectional camera, power supply
It issues and instructs with input and output material controller.
Further, the control centre includes console, data storage element, data analysis unit and data receiver list
Member, the data receipt unit connection console, data storage element and data analysis unit, data storage part unit is also
Connection console and data analysis unit, the data analysis unit are also connected with console.
Compared with prior art, the utility model has the beneficial effects that
The utility model uses Internet of Things Zigbee node, and control centre and sensor and omnidirectional camera are passed through
Wireless communication node connection, so that operator is by control centre and omnidirectional camera to hothouse and key components and parts
Comprehensive monitoring is carried out, if passing through nothing when due to certain key components and parts failure equal cisco unity malfunctions that cause that hothouse catches fire
Related data is delivered to data acceptance unit by line communication node and Internet of Things Zigbee node, then by data acceptance unit correlation
Information conveyance is issued to power supply by Internet of Things Zigbee node and wireless communication node and is instructed, stopped to console, console
All movements, cut off the power, repair;Realize the monitoring function during mow-drying.
Detailed description of the invention
Fig. 1 is the system structure diagram of the utility model.
In figure: 1. control centres, 11. consoles, 12. data storage elements, 13. data analysis units, 14. data receivers
It is unit, 2. Internet of Things Zigbee nodes, 3. wireless communication nodes, 4. temperature sensors, 5. humidity sensors, 6. comprehensive
Camera, 7. power supplys, 8. input and output material controllers.
Specific embodiment
The utility model is described in detail with reference to the accompanying drawings and detailed description.
As shown in Figure 1, this system includes control centre 1, Internet of Things Zigbee node 2, wireless communication node 3, is mounted on
Dry indoor temperature sensor 4 and humidity sensor 5 and input and output material controller 8, temperature sensor 4 and humidity sensor 5
Node 3, Internet of Things Zigbee node 2 and control centre 1 carry out real time communication by wireless communication, and control centre 1 passes through Internet of Things
Net Zigbee node 2, wireless communication node 3 is issued to omnidirectional camera 6, power supply 7 and input and output material controller 8 and instructed.
Control centre 1 includes console 11, data storage element 12, data analysis unit 13 and data receipt unit 14,
Data receipt unit 14 connects console 11, data storage element 12 and data analysis unit 13, and data storage part unit 12 is also
Connect console 11 and data analysis unit 13, data analysis unit 13 is also connected with console 11, wireless communication node 3 respectively with
Omnidirectional camera 6 and power supply 7 connect, and power supply 7 is connect with omnidirectional camera 6.
The utility model when specifically used, console 11 by Internet of Things Zigbee node 2 and wireless communication node 3 to
Input and output material controller 8 issues instruction, and hothouse starts to feed, begins to warm up drying, be mounted on 4 He of temperature sensor of hothouse
The detection of humidity sensor 5 obtains required real time temperature and humidity, by wireless communication node 3 and Internet of Things Zigbee node 2
Temperature and humidity data are transmitted to data receipt unit 14, data receipt unit 14 transfers data to data storage element 12
It with data analysis unit 13, analyzes whether mow-drying reaches requirement, if not up to requiring, continues temperature, humidity data detection;
If reaching requirement, which is delivered to console 11, console 11 passes through Internet of Things Zigbee node 2 and wireless communication node
3 issue instruction to input and output material controller 8, and hothouse starts to discharge, and complete a circulation, continue above-mentioned steps, and complete herbage
Temperature, humidity on-line checking function in drying process.
Console 11 is issued to omnidirectional camera 6 by Internet of Things Zigbee node 2 and wireless communication node 3 and is instructed,
Comprehensive monitoring is carried out to hothouse and key components and parts, if since the failure of certain key components and parts causes hothouse to catch fire etc. no
When can work normally, related data is delivered to data receipt unit by node 3 and Internet of Things Zigbee node 2 by wireless communication
14, then related data information is conveyed to console 11 by data receipt unit 14, console 11 is saved by Internet of Things Zigbee
Point 2 and wireless communication node 3 are issued to power supply to be instructed, and is stopped all movements, is cut off the power 7, repairs;Realize mow-drying
Monitoring function in the process.
Claims (2)
1. temperature, humidity on-line checking, monitoring system during a kind of mow-drying, which is characterized in that the system packet
It includes control centre (1), Internet of Things Zigbee node (2), wireless communication node (3), be mounted on dry indoor temperature sensor
(4) and humidity sensor (5) and input and output material controller (8);The temperature sensor (4) and humidity sensor (5) passes through
Wireless communication node (3), Internet of Things Zigbee node (2) and control centre (1) carry out real time communication, the wireless communication section
Point (3) is connect with omnidirectional camera (6) and power supply (7) respectively, and the power supply (7) is connect with omnidirectional camera (6);Institute
The control centre (1) stated is by Internet of Things Zigbee node (2), wireless communication node (3) to omnidirectional camera (6), power supply
(7) and input and output material controller (8) issues instruction.
2. temperature, humidity on-line checking, monitoring system during a kind of mow-drying as described in claim 1, feature
It is, the control centre (1) includes console (11), data storage element (12), data analysis unit (13) and data
Receiving unit (14), data receipt unit (14) connection console (11), data storage element (12) and data analysis are single
First (13), data storage part unit (12) are also connected with console (11) and data analysis unit (13), the data analysis
Unit (13) is also connected with console (11).
Priority Applications (1)
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CN201821070813.8U CN208606796U (en) | 2018-07-06 | 2018-07-06 | Temperature, humidity on-line checking, monitoring system during a kind of mow-drying |
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CN201821070813.8U CN208606796U (en) | 2018-07-06 | 2018-07-06 | Temperature, humidity on-line checking, monitoring system during a kind of mow-drying |
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CN208606796U true CN208606796U (en) | 2019-03-15 |
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CN201821070813.8U Active CN208606796U (en) | 2018-07-06 | 2018-07-06 | Temperature, humidity on-line checking, monitoring system during a kind of mow-drying |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112369497A (en) * | 2020-10-27 | 2021-02-19 | 贵州省草地技术试验推广站 | Forage grass base lactic acid bacteria intensified fermentation method and walking type multifunctional forage grass processing machine |
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2018
- 2018-07-06 CN CN201821070813.8U patent/CN208606796U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112369497A (en) * | 2020-10-27 | 2021-02-19 | 贵州省草地技术试验推广站 | Forage grass base lactic acid bacteria intensified fermentation method and walking type multifunctional forage grass processing machine |
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