CN115250886A - Intelligent urban greening management control system - Google Patents

Abstract

The invention provides an intelligent urban greening management and control system which comprises a humidity acquisition module, an information processing module, a meteorological detection module, a flow regulation module, a spraying module, a data storage module and a data processing module. Through the environmental status in this area of column image analysis to plant the plant according to environmental status planning, thereby reached and be convenient for collect the summary to spraying volume, weather condition, air humidity and soil moisture, the later stage planning of being convenient for is planted the effect of plant. When spraying, the rotating pipe drives the spray head to rotate, and the water spraying range and uniformity are improved. The telescopic rod of the telescopic cylinder is controlled by the PLC to move up and down, and the water quantity entering the spray head is changed at the moment, so that the effect of further reducing water resource waste by adjusting the spraying water quantity is achieved.

Description

Intelligent urban greening management control system

Technical Field

The invention relates to the technical field of urban greening, in particular to an intelligent urban greening management and control system.

Background

Urban greening is to cover a certain ground or put the ground into a spot and plant plants to improve the activities of urban environment. The intelligent urban greening management control system is a system for controlling and adjusting greening equipment through a remote control system and an adjusting system.

Current urban afforestation sprays and waters and is mostly manual control, and the manual control process can't be adjusted according to weather condition, air humidity and soil moisture, can cause a large amount of water waste, and current urban afforestation management control system does not collect the summary to spraying volume, weather condition, air humidity and soil moisture, is unfavorable for later stage planning to plant the plant.

Disclosure of Invention

For solving the above-mentioned present urban afforestation sprays and waters and mostly is manual control, the manual control process can't be according to the weather condition, air humidity and soil moisture adjust, can cause a large amount of water resource waste, and current urban afforestation management control system, do not to spray volume, the weather condition, air humidity and soil moisture collect and summarize, be unfavorable for the problem of later stage planning planting plant, realize above automatic control spray reduce water resource waste and be convenient for to spray volume according to external environment variation, the weather condition, air humidity and soil moisture collect and summarize, be convenient for later stage planning to plant the plant, be convenient for adjust the size of the spray water volume further reduce water resource waste, be convenient for the shower nozzle to rotate the purpose that spray water improves water spray range and homogeneity, the invention provides the following technical scheme: an intelligent urban greening management control system comprises a humidity acquisition module, an information processing module, a meteorological detection module, a flow regulation module, a spraying module, a data storage module and a data processing module;

humidity acquisition module: the humidity sensor is used for collecting the humidity of soil and air;

weather detection module: the system is used for detecting weather conditions in real time;

an information processing module: the system is used for judging the humidity and the weather condition and sending out an instruction;

a flow regulating module: the system is used for adjusting the spraying flow of the spraying module;

a spraying module: the spraying device is used for spraying the greening area;

a data storage module: the system is used for storing information of weather conditions, soil and air humidity conditions and spraying water quantity conditions;

a data processing module: the method is used for analyzing and integrating the stored data and forming a histogram.

The method comprises the following specific steps:

s1, acquiring humidity of soil and air through an acquisition module, and uploading the humidity to an information processing module;

s2, firstly, judging whether the soil humidity is lower than a preset value, if not, uploading the soil humidity data of the current day to a database for storage, and if the soil humidity exceeds the preset value, performing the next step;

s3, collecting weather information of the current day through a weather collection module, uploading the weather information to an information processing module, judging whether rain exists today, and if no rain exists in the current day, carrying out the next step;

s4, judging whether the air humidity is lower than a preset value or not, if so, spraying in a large-flow spraying mode, and if not, spraying in a small-flow spraying mode;

s5, uploading the spraying data to a database for storage;

and S6, integrating all data in the database to form a columnar image.

The horizontal axis of the histogram image formed in step S6 represents the date, the vertical axis represents the sprayed water amount, and the top of the histogram image shows the weather of the day and the humidity of the soil and air.

The utility model provides an intelligent city afforestation management control system's device, including the water main, the inside swing joint of water main has the turbine, the inside fixedly connected with axis of rotation of turbine, the outer wall welding at axis of rotation top has drive gear, drive gear's right side meshing is connected with driven gear, driven gear's inside fixedly connected with live-tube, the top threaded connection of live-tube has the shower nozzle, the bottom of live-tube is pegged graft and is had the standpipe, the outer wall of standpipe is provided with the inlet opening, the inside bottom sliding connection of standpipe has the closing plate, the bottom fixedly connected with coupling hose of closing plate, the inside bottom fixedly connected with telescopic cylinder of coupling hose.

Furthermore, the rotating pipe is T-shaped, and the left side and the right side of the top of the rotating pipe are both in threaded connection with spray heads.

Further, the vertical pipe is arranged inside the water main, and the bottom of the vertical pipe is welded at the bottom inside the water main.

Furthermore, the outer wall of standpipe evenly is provided with and is no less than twenty inlet openings.

Further, the outer wall of the sealing plate is hermetically connected with the interior of the vertical pipe.

Furthermore, the bottom of the connecting hose is fixedly connected with the bottom inside the vertical pipe.

Furthermore, telescopic rod and the bottom fixed connection of closing plate of telescopic cylinder, just telescopic cylinder passes through outside PLC control.

Compared with the prior art, the invention provides an intelligent urban greening management control system, which has the following beneficial effects:

1. this intelligent urban afforestation management control system judges whether need to water through soil moisture and weather conditions, judges through air moisture and adopts large-traffic to spray or the small flow sprays the mode and waters, need not manual control to reach automated control and sprayed the effect that reduces the water waste according to external environment change.

2. This intelligent urban afforestation management control system forms the column image through the humidity data integration processing with date, the water yield that sprays, day weather and soil and air, and the people's later stage analysis this area's of being convenient for environmental state plans and plants the plant according to environmental state to reached and be convenient for collect the summary to spraying volume, weather condition, air humidity and soil humidity, the later stage planning of being convenient for plants the effect.

3. This intelligent urban afforestation management control system uses through the cooperation of turbine and axis of rotation, drive gear, driven gear, rotating tube, shower nozzle, and when spraying, the turbine drives the axis of rotation and rotates, further makes drive gear drive driven gear rotate, and the rotating tube drives the shower nozzle and can rotate this moment to reached and be convenient for rotate the effect that the water spray improved water spray scope and homogeneity.

4. This intelligent urban afforestation management control system, through telescopic cylinder and closing plate, the standpipe, the inlet opening, the rotating tube, the cooperation of shower nozzle is used, when the water yield is sprayed in needs regulation, telescopic link up-and-down motion through PLC control telescopic cylinder, the closing plate can slide from top to bottom in the inside of standpipe this moment, further make to enter into the inside water yield of rotating tube through the inlet opening and change, the water yield that gets into the shower nozzle this moment changes, thereby reached the size that is convenient for adjust the water yield of spraying and further reduced the effect of water waste.

Drawings

FIG. 1 is a schematic diagram of a control system of the present invention;

FIG. 2 is a schematic diagram of a control system according to the present invention;

FIG. 3 is a schematic illustration of a bar graph of the present invention;

FIG. 4 is a schematic view of the entire structure of the spraying device of the present invention;

FIG. 5 is a perspective view of the hose of the present invention;

FIG. 6 is an enlarged view of the structure A in FIG. 4 according to the present invention.

In the figure: 1. a water main; 2. a turbine; 3. a rotating shaft; 4. a drive gear; 5. a driven gear; 6. rotating the tube; 7. a spray head; 8. a vertical tube; 9. a water inlet hole; 10. sealing plates; 11. a connecting hose; 12. a telescopic cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the intelligent urban greening management control system is as follows:

referring to fig. 1-6, an intelligent management and control system for urban landscaping includes a humidity acquisition module, an information processing module, a weather detection module, a flow regulation module, a spraying module, a data storage module, and a data processing module;

humidity acquisition module: the device is used for collecting the humidity of soil and air;

weather detection module: the system is used for detecting weather conditions in real time;

an information processing module: the system is used for judging the humidity and the weather condition and sending out an instruction;

a flow regulating module: the system is used for adjusting the spraying flow of the spraying module;

and (3) a spraying module: the spraying device is used for spraying the greening area;

a data storage module: the system is used for storing information of weather conditions, soil and air humidity conditions and spraying water quantity conditions;

a data processing module: the method is used for analyzing and integrating the stored data and forming a histogram.

The method comprises the following specific steps:

s1, acquiring the humidity of soil and air through an acquisition module, and uploading the humidity to an information processing module;

s2, firstly, judging whether the soil humidity is lower than a preset value, if not, uploading the soil humidity data of the current day to a database for storage, and if the soil humidity exceeds the preset value, performing the next step;

s3, collecting weather information of the current day through a weather collection module, uploading the weather information to an information processing module, judging whether rain exists today, and if no rain exists in the current day, carrying out the next step;

s4, judging whether the air humidity is lower than a preset value or not, if so, spraying in a large-flow spraying mode, and if not, spraying in a small-flow spraying mode;

s5, uploading the spraying data to a database for storage;

and S6, integrating all data in the database to form a columnar image.

The bar image formed in step S6 has a horizontal axis direction representing the date and a vertical axis representing the sprayed water amount, and the top of the bar analysis chart shows the weather and the humidity of the soil and air on the same day.

The utility model provides an intelligent city afforestation management control system's device, including water main 1, water main 1's inside swing joint has turbine 2, the inside fixedly connected with axis of rotation 3 of turbine 2, the outer wall welding at 3 tops of axis of rotation has drive gear 4, drive gear 4's right side meshing is connected with driven gear 5, driven gear 5's inside fixedly connected with live-wire tube 6, live-wire tube 6 is T shape, the equal threaded connection in the left and right sides at its top has shower nozzle 7, live-wire tube 6's top threaded connection has shower nozzle 7, live-wire tube 6's bottom is pegged graft and is had standpipe 8, standpipe 8 sets up the inside at water main 1, and standpipe 8's bottom welding is in water main 1 inside bottom, standpipe 8's outer wall is provided with inlet opening 9, the even being provided with of outer wall of standpipe 8 is no less than twenty inlet openings 9, the inside bottom sliding connection of standpipe 8 has closing plate 10, closing plate 10's outer wall and standpipe 8's inside sealing connection, the bottom fixedly connected with connecting hose 11 of closing plate 10, connecting hose 11's bottom and the inside bottom fixed connection of standpipe 8, connecting hose 11's the inside fixed connection of connecting tube 11, connecting cylinder 12, the outside of connecting hose 12 is connected with the telescopic cylinder 12, the outside of telescopic cylinder 12 of the telescopic control cylinder 12 of the telescopic rod is connected.

The working principle is that whether watering is needed or not is judged according to soil humidity and weather conditions, water resource waste caused by manual regular watering is avoided, a large-flow spraying mode or a small-flow spraying mode is adopted according to air humidity judgment, waste of water resources is further reduced, manual control is not needed in the spraying process, and therefore the effect of reducing water resource waste according to external environment change through automatic control of spraying is achieved.

Upload the data of date, the water yield that sprays, weather and soil and the humidity data of air to the database and save to the inside all data of database integrate and handle and form the column image, the environmental state in this area of people's later stage analysis of being convenient for, and plant the plant according to environmental state planning, thereby reached and be convenient for collect the summary to spraying volume, weather condition, air humidity and soil humidity, the later stage planning of being convenient for plants the effect of plant.

During spraying, because the inside swing joint of water main 1 has turbine 2, so turbine 2 can rotate this moment, again because the inside fixedly connected with axis of rotation 3 of turbine 2, the outer wall welding at 3 tops of axis of rotation has drive gear 4, so drive gear 4 also can rotate this moment, again because drive gear 4's right side meshing is connected with driven gear 5, driven gear 5's inside fixedly connected with rotating tube 6, so rotating tube 6 also can rotate this moment, again because rotating tube 6 is the T shape, the equal threaded connection in the left and right sides at its top has shower nozzle 7, so water spray in-process shower nozzle 7 can rotate, thereby reached and be convenient for rotate the effect that the water spray improves water spray range and homogeneity.

When the water yield is sprayed in needs regulation, because telescopic cylinder 12 passes through outside PLC control, so can pass through PLC control telescopic cylinder 12's telescopic link up-and-down motion this moment, again because telescopic cylinder 12's telescopic link and closing plate 10's bottom fixed connection, so closing plate 10 also can move from top to bottom this moment, again because the inside bottom sliding connection of standpipe 8 has closing plate 10, closing plate 10's outer wall and standpipe 8's inside sealing connection, so closing plate 10 can slide from top to bottom in standpipe 8's inside this moment, again because the even being provided with of standpipe 8's outer wall is no less than twenty inlet openings 9, it has standpipe 8 to peg graft in the bottom of rotating tube 6, standpipe 8 sets up the inside at water main 1, so the inside water yield that enters into rotating tube 6 through inlet opening 9 this moment can change, further make the water yield that gets into shower nozzle 7 change, thereby reached the size that is convenient to adjust the water yield and further reduced the effect of extravagant water resource.

To sum up, this intelligent urban afforestation management control system judges whether need to water through soil moisture and weather conditions, judges through air moisture and adopts large-traffic spraying or the small flow mode of spraying to water, need not manual control to automatic control is spouted and is drenched the effect that reduces water waste according to external environment change.

With date, the water yield that sprays, the humidity data integration processing formation column image of weather and soil and air on the same day, the people's later stage analysis this area's of being convenient for to plant the plant according to the environmental status planning, thereby reached and be convenient for collect the summary to spraying volume, weather condition, air humidity and soil humidity, the later stage planning of being convenient for plants the effect.

When spraying, the turbine 2 drives the rotation shaft 3 to rotate, further enables the driving gear 4 to drive the driven gear 5 to rotate, and the rotation pipe 6 drives the spray head 7 to rotate at the moment, so that the effect of facilitating rotation of spraying water and improving the water spraying range and uniformity is achieved.

When the water yield is sprayed in needs regulation, through the telescopic link up-and-down motion of PLC control telescopic cylinder 12, closing plate 10 can slide from top to bottom in the inside of standpipe 8 this moment, further makes and enters into the inside water yield of rotating tube 6 through inlet opening 9 and changes, and the water yield that gets into shower nozzle 7 changes this moment to reached and be convenient for adjust the size that sprays the water yield and further reduced the effect of water waste.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an intelligent city afforestation management control system which characterized in that: the system comprises a humidity acquisition module, an information processing module, a meteorological detection module, a flow regulation module, a spraying module, a data storage module and a data processing module;

humidity acquisition module: the device is used for collecting the humidity of soil and air;

weather detection module: the system is used for detecting weather conditions in real time;

an information processing module: the system is used for judging the humidity and the weather condition and sending out an instruction;

a flow regulating module: the system is used for adjusting the spraying flow of the spraying module;

a spraying module: the spraying device is used for spraying the greening area;

a data storage module: the system is used for storing information of weather conditions, soil and air humidity conditions and spraying water quantity conditions;

a data processing module: the method is used for analyzing and integrating the stored data and forming a histogram.

2. The intelligent urban greening management and control system according to claim 1, comprising the following specific steps:

s1, acquiring the humidity of soil and air through an acquisition module, and uploading the humidity to an information processing module;

s2, firstly, judging whether the soil humidity is lower than a preset value, if not, uploading the soil humidity data of the current day to a database for storage, and if the soil humidity exceeds the preset value, performing the next step;

s3, collecting weather information of the current day through a weather collection module, uploading the weather information to an information processing module, judging whether rain exists today, and if no rain exists in the current day, carrying out the next step;

s4, judging whether the air humidity is lower than a preset value, if so, spraying in a large-flow spraying mode, and if not, spraying in a small-flow spraying mode;

s5, uploading the spraying data to a database for storage;

and S6, integrating all data in the database to form a columnar image.

3. The intelligent urban greening management and control system according to claim 2, wherein: the bar image formed in step S6 has a horizontal axis direction representing the date and a vertical axis representing the sprayed water amount, and the top of the bar analysis chart shows the weather and the humidity of the soil and air on the same day.

4. An apparatus suitable for the intelligent urban greening management and control system of claim 1, wherein: the utility model discloses a solar water heater, including water main (1), the inside swing joint of water main (1) has turbine (2), the inside fixedly connected with axis of rotation (3) of turbine (2), the outer wall welding at axis of rotation (3) top has drive gear (4), the right side meshing of drive gear (4) is connected with driven gear (5), the inside fixedly connected with live-wire (6) of driven gear (5), the top threaded connection of live-wire (6) has shower nozzle (7), peg graft in the bottom of live-wire (6) has standpipe (8), the outer wall of standpipe (8) is provided with inlet opening (9), the inside bottom sliding connection of standpipe (8) has closing plate (10), the bottom fixedly connected with coupling hose (11) of closing plate (10), the inside bottom fixedly connected with telescopic cylinder (12) of coupling hose (11).

5. The device of an intelligent management and control system for urban landscaping as claimed in claim 4, wherein: the rotating pipe (6) is T-shaped, and the left side and the right side of the top of the rotating pipe are both in threaded connection with spray heads (7).

6. The device of an intelligent management and control system for urban landscaping as claimed in claim 4, wherein: the vertical pipe (8) is arranged inside the water main (1), and the bottom of the vertical pipe (8) is welded at the bottom inside the water main (1).

7. The device of an intelligent management and control system for urban landscaping as set forth in claim 4, wherein: the outer wall of the vertical pipe (8) is uniformly provided with at least twenty water inlet holes (9).

8. The device of an intelligent management and control system for urban landscaping as claimed in claim 4, wherein: the outer wall of the sealing plate (10) is hermetically connected with the interior of the vertical pipe (8).

9. The device of an intelligent management and control system for urban landscaping as claimed in claim 4, wherein: the bottom of the connecting hose (11) is fixedly connected with the bottom inside the vertical pipe (8).

10. The device of an intelligent management and control system for urban landscaping as claimed in claim 4, wherein: the telescopic rod of the telescopic cylinder (12) is fixedly connected with the bottom of the sealing plate (10), and the telescopic cylinder (12) is controlled by an external PLC.

Images