CN206922941U - A kind of corn and Chinese sorghum plants real-time monitoring system - Google Patents
A kind of corn and Chinese sorghum plants real-time monitoring system Download PDFInfo
- Publication number
- CN206922941U CN206922941U CN201720583228.7U CN201720583228U CN206922941U CN 206922941 U CN206922941 U CN 206922941U CN 201720583228 U CN201720583228 U CN 201720583228U CN 206922941 U CN206922941 U CN 206922941U
- Authority
- CN
- China
- Prior art keywords
- fixed
- fixation
- under
- series
- corn
- 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.)
- Expired - Fee Related
Links
Landscapes
- Image Processing (AREA)
- Closed-Circuit Television Systems (AREA)
Abstract
The utility model discloses a kind of corn and Chinese sorghum to plant real-time monitoring system, including monitoring component, detection part and Internet of Things, the monitoring component includes the camera lens of fixed setting, fixation is pasted with diaphragm before camera lens, rotary setting is fixed after camera lens fixed aperture, concatenated images sensor is fixed after the monitoring component, imaging sensor includes image access port, it is fixedly connected under image access port and is provided with digital information processing unit, integrally fixation has been arranged in series noise Fuzzy Processing to digital signal processing unit, signal transmission mouth is fixed connects with bluetooth receiving port, fixation is in series with data and is incorporated into mouth under bluetooth receiving port, just fixation is in series with pre- comparing unit to data under entrance, fixation is in series with data storage card and Internet of Things under pre- comparing unit, it is simple in construction, it has been easy to real-time monitoring and management, it is easily achieved.
Description
Technical field
Agriculture cultivation field is the utility model is related to, specially a kind of corn and Chinese sorghum plantation real-time monitoring system.Belong to thing
Network type Cultivating techniques field.
Background technology
Reading intelligent agriculture wireless supervisory control system is that one kind combines the high-tech hand such as computer automatic control technology, intelligent sensing technology
The resource-conserving efficient facility agricultural technology of section, it is mainly according to the temperature of environment, humidity, carbon dioxide content, photosynthetic
The factor such as Net long wave radiation and soil regime, to control the indices in greenhouse, to create the optimal of suitable plant growth
Environment.How accurately, stably, easily obviously obtain these environmental informations just turns into the key of whole system.With
The development of short-distance wireless communication in recent years, emerging sensor network technology provide for the sensing link in intelligent agricultural system
Strong technical guarantee.
But it is that the device such as corn and Chinese sorghum situation is carried out by the monitoring device set up in existing real-time monitoring system
Feedback, can generally reach the effect monitored in real time, but in practice, because monitoring is simply to the outer of corn and sorghum
Sight carries out shooting transmission work so that tester is intelligently concerned about the presentation problem of crop, if there is growth inside environment
Problem, such as antecedent soil moisture, when presentation reveals, crop have received very big infringement, so design is a kind of
Corn and Chinese sorghum plants real-time monitoring system, is objective reality urgent problem.
Utility model content
The purpose of this utility model is to provide a kind of corn and Chinese sorghum plantation real-time monitoring system, solved in background technology
The problem of proposed.
To solve the above problems, the utility model provides following technical scheme:
A kind of corn and Chinese sorghum plants real-time monitoring system, including monitoring component, detection part and Internet of Things, the monitoring portion
Part includes the camera lens of fixed setting, is fixed before the camera lens and is pasted with diaphragm, fixing rotary setting after the camera lens has fixation
Aperture, rotary setting is fixed after the fixed aperture there is being fixedly installed autozoom described in auto iris inside auto iris,
Concatenated images sensor is fixed after the monitoring component, described image sensor includes image access port, described image access port
Under be fixedly connected and be provided with digital information processing unit, integrally fixation has been arranged in series noise mould to the digital signal processing unit
Paste is handled, and fixed after the noise Fuzzy Processing to be separately in series with image storage card and Internet of Things, the monitoring component includes
Detection block, signal transmission mouth is fixedly installed in the detection block, battery compartment is fixedly installed under the signal transmission mouth, it is described
Frequency-variable controller is fixedly installed under battery compartment, sensing frame is fixedly installed under the frequency-variable controller, it is described to sense under frame admittedly
Surely humidity sensor is provided with, fixed cone is fixedly installed under the sensing frame, the signal transmission mouth is fixed to be received with bluetooth
Mouthful series connection, the fixed data that are in series with are incorporated into mouth under the bluetooth receiving port, and just fixation is in series with pre- comparison to the data under entrance
Unit, under the pre- comparing unit fixation be in series with data storage card and Internet of Things.
As a kind of preferred embodiment of the present utility model, the monitoring component includes numerous external parts, the guarantor
The mode that cuticula designs for matte surface, the camera lens design for convexity, and the fixed aperture is that built-in lira is set.
As a kind of preferred embodiment of the present utility model, the auto iris built-in light source sensor is described automatic
Zoom is arranged at the core of auto iris.
As a kind of preferred embodiment of the present utility model, described image sensor is COMS patterns, the noise mould
Paste processing is using the photo-sensitive cell of heat endurance, and described image storage card is plug type, and the detection block is hollow type.
As a kind of preferred embodiment of the present utility model, the humidity sensor is set for opposition, the fixed cone
Designed for back taper, the data storage card is plug type.
Compared with prior art, the beneficial effects of the utility model are as follows:
It is imaged by equipment such as the camera lens in monitoring component, fixed aperture, auto iris and autozooms, passes through figure
As the image access port of sensor internal receives to image, when reaching digital information processing unit by heat endurance
Photo-sensitive cell carries out the noise Fuzzy Processing of picture, is finally synchronously delivered within image storage card and Internet of Things, convenient monitoring
The preview of person and later reference.
Among inserting soil by the fixed cone under detection part, sensing the humidity sensor being fixedly installed under frame will rise
To the effect of monitoring, signal can be passed to frequency-variable controller, frequency-variable controller can transmit mouth by the signal of top, information
Bluetooth receiving port is passed to, then used data are incorporated into mouth, and entering row information with pre- comparing unit thereafter compares, if humidity is small
In the numerical value of pre- comparing unit setting, it will simultaneously be stored within data storage card and Internet of Things, facilitate the information of human observer to unite
Meter.
Brief description of the drawings
Fig. 1 is that a kind of corn and Chinese sorghum of the utility model plants real-time monitoring system camera structure schematic diagram;
Fig. 2 is that a kind of corn and Chinese sorghum of the utility model plants real-time monitoring system sensor structure schematic diagram
Fig. 3 is that a kind of corn and Chinese sorghum of the utility model plants real-time monitoring system series connection schematic diagram;
In figure:1- monitoring components, 2- detection parts, 3- Internet of Things, 11- diaphragms, 12- camera lenses, 13- fixed apertures, 14-
Auto iris, 15- autozooms, 16- imaging sensors, 17- images access port, 18- digital information processings unit, 19- noises
Fuzzy Processing, 20- image storages card, 21- detection blocks, 211- signals transmission mouth, 212- battery compartments, 213- frequency-variable controllers, 22-
Sensing frame, 221- humidity sensors, 23- fixed cones, 24- bluetooths receiving port, 25- data are incorporated into the pre- comparing unit of mouth, 26-, 27-
Data storage card.
Embodiment
Embodiment 1
As shown in Figure 1 to Figure 3, a kind of corn and Chinese sorghum plantation real-time monitoring system, including monitoring component 1, the and of detection part 2
Internet of Things 3, the monitoring component 1 includes the camera lens 12 of fixed setting, is fixed before the camera lens 12 and be pasted with diaphragm 11, described
Rotary setting is fixed after camera lens 12 fixed aperture 13, and fixing rotary setting after the fixed aperture 13 has described in auto iris 14
Autozoom 15 is fixedly installed inside auto iris 14, concatenated images sensor 16, the figure are fixed after the monitoring component 1
Picture sensor 16 includes image access port 17, is fixedly connected under described image access port 17 and is provided with digital information processing unit
18, the overall fixation of digital signal processing unit 18 has been arranged in series noise Fuzzy Processing 19, the noise Fuzzy Processing 19
Fixation is separately in series with image storage card 20 and Internet of Things 3 afterwards, and the monitoring component 1 includes detection block 21, the detection block
Signal transmission mouth 211 is fixedly installed on 21, battery compartment 212, the battery compartment are fixedly installed under the signal transmission mouth 211
Frequency-variable controller 213 is fixedly installed under 212, sensing frame 22, the sensing frame are fixedly installed under the frequency-variable controller 213
Humidity sensor 221 is fixedly installed under 22, is fixedly installed fixed cone 23 under the sensing frame 22, the signal transmits mouth
211 fixations are connected with bluetooth receiving port 24, and 24 times fixations of bluetooth receiving port are in series with data and are incorporated into mouth 25, and the data are just
25 times fixations of entrance are in series with pre- comparing unit, and pre- 26 times fixations of comparing unit are in series with data storage card 27 and Internet of Things
3。
Monitoring component 1 includes numerous external parts, the mode that the diaphragm 11 designs for matte surface, the camera lens 12
Designed for convexity, the fixed aperture 13 is that built-in lira is set, and matte surface design avoids polarity, convexity design
The raising image-forming range of maximizing, disposed thread set easy to disassemble.
The built-in light source sensor of auto iris 14, the autozoom 15 are arranged at the core of auto iris 14, light
The size of the intelligentized selection light source of source sensor energy, can ensure the accuracy of autozoom in core.
Imaging sensor 16 is COMS patterns, and the noise Fuzzy Processing 19 uses the photo-sensitive cell of heat endurance, described
Image storage card 20 is plug type, and the detection block 21 is hollow type, and CMOS is exactly to save very much for the most important advantages of CCD
Electricity, almost reduce the formation of noise without static electric quantity consumption, photo-sensitive cell, hollow design facilitates inserting for part.
Humidity sensor 221 is set for opposition, and the fixed cone 23 designs for back taper, and the data storage card 27 is can
Plug-in, opposition set the success rate that ensure that detection, and back taper design facilitates insertion soil, and plug type, which facilitates, to be made
With.
Operation principle:Pass through the camera lens 12 in monitoring component 1, fixed aperture 13, auto iris 14 and autozoom first
The equipment such as 15 are imaged, and image is received by the image access port 17 inside imaging sensor 16, are reaching numeral
The noise Fuzzy Processing 19 of picture is carried out by the photo-sensitive cell of heat endurance during information process unit 18, is finally synchronously delivered to
Within image storage card 20 and Internet of Things 3, facilitate preview and the later reference of human observer.Secondly by consolidating under test section 2
Surely among the insertion of cone 23 soil, the humidity sensor 221 of sensing 22 times fixed settings of frame will play a part of monitoring, can be letter
Frequency-variable controller 214 number is passed to, frequency-variable controller 214 can transmit mouth 211 by the signal of top, convey information to indigo plant
Tooth receiving port 24, then used data be incorporated into mouth 25, then entering row information with pre- comparing unit 26 thereafter compares, if humidity
Less than the numerical value of pre- comparing unit 26 setting, it will simultaneously be stored within data storage card 27 and Internet of Things 3, facilitate human observer
Information Statistics.
Claims (5)
1. a kind of corn and Chinese sorghum plants real-time monitoring system, including monitoring component (1), detection part (2) and Internet of Things (3), its
It is characterised by:The monitoring component (1) includes the camera lens (12) of fixed setting, is fixed before the camera lens (12) and is pasted with diaphragm
(11), the camera lens (12) fixes rotary setting afterwards fixed aperture (13), and the fixed aperture (13) fixes rotary setting afterwards
Have and autozoom (15) is fixedly installed inside auto iris (14) auto iris (14), the monitoring component (1) is solid afterwards
Determine concatenated images sensor (16), described image sensor (16) includes image access port (17), described image access port (17)
Under be fixedly connected and be provided with digital information processing unit (18), integrally fixation is arranged in series the digital signal processing unit (18)
There is noise Fuzzy Processing (19), fixation is separately in series with image storage card (20) and Internet of Things to the noise Fuzzy Processing (19) afterwards
(3), the monitoring component (1) includes detection block (21), and signal transmission mouth is fixedly installed on the detection block (21)
(211) battery compartment (212), is fixedly installed under the signal transmission mouth (211), is fixedly installed under the battery compartment (212)
Frequency-variable controller (213), is fixedly installed sensing frame (22) under the frequency-variable controller (213), solid under the sensing frame (22)
Surely humidity sensor (221) is provided with, fixed cone (23) is fixedly installed under the sensing frame (22), the signal transmits mouth
(211) fixation is connected with bluetooth receiving port (24), under the bluetooth receiving port (24) fixation be in series with data and be incorporated into mouth (25), institute
State that data are just fixed under entrance (25) to be in series with pre- comparing unit, under the pre- comparing unit (26) fixation being in series with data storage
Block (27) and Internet of Things (3).
A kind of 2. corn and Chinese sorghum plantation real-time monitoring system according to claim 1, it is characterised in that:The monitoring component
(1) numerous external parts, the mode that the diaphragm (11) is designed for matte surface are included, the camera lens (12) sets for convexity
Meter, the fixed aperture (13) are that built-in lira is set.
A kind of 3. corn and Chinese sorghum plantation real-time monitoring system according to claim 1, it is characterised in that:The automatic light
(14) built-in light source sensor is enclosed, the autozoom (15) is arranged at the core of auto iris (14).
A kind of 4. corn and Chinese sorghum plantation real-time monitoring system according to claim 1, it is characterised in that:Described image senses
Device (16) is COMS patterns, and the noise Fuzzy Processing (19) uses the photo-sensitive cell of heat endurance, described image memory card
(20) it is plug type, the detection block (21) is hollow type.
A kind of 5. corn and Chinese sorghum plantation real-time monitoring system according to claim 1, it is characterised in that:The humidity inductive
Device (221) is set for opposition, and the fixed cone (23) is designed for back taper, and the data storage card (27) is plug type.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720583228.7U CN206922941U (en) | 2017-05-23 | 2017-05-23 | A kind of corn and Chinese sorghum plants real-time monitoring system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720583228.7U CN206922941U (en) | 2017-05-23 | 2017-05-23 | A kind of corn and Chinese sorghum plants real-time monitoring system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206922941U true CN206922941U (en) | 2018-01-23 |
Family
ID=61307843
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720583228.7U Expired - Fee Related CN206922941U (en) | 2017-05-23 | 2017-05-23 | A kind of corn and Chinese sorghum plants real-time monitoring system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206922941U (en) |
-
2017
- 2017-05-23 CN CN201720583228.7U patent/CN206922941U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105547252B (en) | Crop canopies image collecting device based on context aware | |
CN101330823B (en) | Method of evaluating tree body production power, imaging device for evaluating tree body production power and program for evaluating tree body production power | |
CN110728332A (en) | Agricultural data analysis method and system based on Internet of things | |
CN206960988U (en) | A kind of intelligence based on cloud framework is breeded fish monitoring system | |
CN111738139A (en) | Cultured fish monitoring method and system based on image recognition | |
CN111008733A (en) | Crop growth control method and system | |
CN106841568A (en) | Good farmland soil detection system and its implementation based on technology of Internet of things | |
CN109191520A (en) | A kind of Measurement Approach of Leaf Area and system based on color calibration | |
CN107454313A (en) | The photographic method and camera system of agricultural intelligent device | |
CN108061600B (en) | A kind of miniaturization spectrum imaging system and imaging method | |
CN109655108A (en) | A kind of field planting real-time monitoring system and method based on Internet of Things | |
CN206922941U (en) | A kind of corn and Chinese sorghum plants real-time monitoring system | |
CN105510239A (en) | Soil multispectral information collecting device | |
CN109470316A (en) | A kind of planting intelligent monitor system based on big data | |
CN206975496U (en) | A kind of agricultural greenhouse long-distance management system | |
CN112986157A (en) | Culture water environment early warning regulation and control method, device and system | |
CN206847668U (en) | A kind of crops monitoring system | |
CN103006186B (en) | Automatic verification device and method for color-changing thermometers | |
WO2018032285A1 (en) | Flower planting photographing monitoring system | |
CN205691511U (en) | A kind of animal excrements composition detection system | |
CN206248851U (en) | The digital weather station in campus | |
CN210038776U (en) | Data acquisition equipment | |
CN102213616A (en) | Space multi-spectral information acquiring device | |
CN106447648A (en) | Domestic flower plantation detection home host | |
CN207779449U (en) | Patrol canopy detection device and agricultural greenhouse production equipment |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180123 Termination date: 20200523 |