CN113064427A - Community intelligent agricultural system based on Internet of things - Google Patents

Abstract

The invention discloses a community intelligent agricultural system based on the Internet of things, which comprises a vegetable planting culture system, a vegetable planting movable frame, a vegetable planting track, a supply device and a supply pipeline, wherein the vegetable planting movable frame is arranged on the vegetable planting track; the aquaculture system comprises an underwater bracket connected with the vegetable planting track, a feeding device and an aquaculture control sensor; the domestic waste and water quality system comprises a domestic waste and water quality processor and an aquaculture control sensor; the cloud service port is a service port and provides real-time inquiry and early warning for management personnel; and the Internet of things master control end is connected with each system and the cloud service port. The invention can fully utilize community resources, increase the community greening rate, build a smart agricultural smart city, and aims to form a smart agricultural system integrating land planting and aquatic products in the community.

Description

Community intelligent agricultural system based on Internet of things

Technical Field

The invention belongs to the technical field of intelligent agriculture, and particularly relates to a community intelligent agricultural system based on the Internet of things.

Background

With the modern development of urban communities, the population density of the urban communities increases year by year, and urban green areas are relatively reduced, so that a heat island effect is caused. Various dust exhaust gases float in cities, the community environment is polluted, and the physical and mental health of people in the community is seriously influenced. Meanwhile, in the aspect of community management, the community greenbelts and the riverways do not produce any economic benefit, but certain cost needs to be paid for greening maintenance every year.

Therefore, how to increase the community greening rate and improve the community income and reduce the community maintenance cost is a difficult problem encountered by urban communities.

Disclosure of Invention

Based on the defects of the prior art, the invention aims to provide the community intelligent agricultural system based on the Internet of things, and aims at solving the problems of community greening and community economic benefit, increasing the community greening rate and improving the community economic benefit.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides a community intelligent agricultural system based on the Internet of things, which comprises: the vegetable planting culture system comprises a vegetable planting moving frame, a vegetable planting rail for the vegetable planting moving frame to travel, a supply device for providing nutrients for the vegetable planting moving frame, and a supply pipeline for conveying the nutrients for the supply device; the aquaculture system comprises an underwater bracket, a feeding device and an aquaculture control sensor, wherein the underwater bracket is connected with the vegetable planting track; the domestic waste and water quality system comprises a domestic waste and water quality processor for recovering domestic waste to cultivate nutrients and an aquaculture control sensor for monitoring water quality; the cloud service port is a service port and provides real-time inquiry and early warning for management personnel; the general control end of the internet of things, with cultivation system, aquaculture system, domestic waste and water quality system and cloud service port are planted to the vegetables and are connected, and real-time control vegetables are planted cultivation system, aquaculture system, domestic waste and water quality system and are accepted its feedback, realize real-time supervision, and the general control end of the internet of things transmits data to cloud service port and realizes real-time inquiry and early warning function simultaneously.

Optionally, the vegetable planting movable rack comprises: the vegetable planting support is used for providing support for the vegetable planting movable frame and is provided with a basic framework with a water outlet; the vegetable planting rotating platform is a movable rotating device, and is convenient for the vegetable planting moving frame to find the sunny angle; the traveling devices are four movable buckles which are arranged on the vegetable planting movable frame, are meshed with the vegetable planting rails and are not fixed, and provide traveling for the vegetable planting movable frame; the adjusting shaft is a movable device which can move up and down and provides higher space utilization rate for the planting pot; the planting pot is a basic unit for cultivating green plants and is connected with a water outlet on the vegetable planting bracket; cultivation control sensor is planted to vegetables for vegetables plant orbital control sensing device, be used for control support, vegetables are planted, rotary platform, running gear, regulating spindle are planted to vegetables, plant the basin and provide real-time supervision, remote control, real-time inquiry, early warning function for cultivating green planting.

Furthermore, in ordinary time, the vegetable planting moving frame is positioned in the packaging control shed, the internet of things master control end carries out unified management on the vegetable planting moving frame and monitors the vegetable planting moving frame, the recycled external resources are reused by the domestic waste and water quality processor, and the reused resources irrigate the vegetable planting moving frame through the supply pipeline and the supply device; when the sun rises, the vegetable planting moving frame controls the traveling device to move away from the packaging control shed along with the vegetable planting rail through the vegetable planting control sensor, and the vegetable planting moving frame runs to a place with abundant sunlight to fully utilize the sunlight; along with the movement of the sun, the vegetable planting moving frame also moves and rotates along with the movement of the sun so as to fully carry out photosynthesis; when the sun falls, the vegetable planting moving frame returns to the packaging control shed again, waits for the next day, and when harvesting is completed, the vegetable is harvested in the packaging control shed.

Optionally, the aquatic support transports the fodder and throws edible device and throw the food by aquaculture control sensor control, and when aquaculture variety is various, utilize the waters jube to keep apart the aquaculture of many varieties.

Therefore, the community intelligent agricultural system based on the Internet of things can fully utilize community resources, increase the community greening rate and build an intelligent agricultural intelligent city, and aims to form the intelligent agricultural system integrating land planting and aquatic products in the community. Meanwhile, a color can be added to the public space design. The invention has at least the following beneficial effects:

(1) the functions of real-time monitoring, remote control, real-time inquiry and early warning are realized by adopting the technology of the Internet of things and various sensing facilities.

(2) Adopt the folding vegetables in space to plant and remove the frame, increased community space utilization, promoted urban community green rate.

(3) The green plants and the aquatic products are jointly cultured, so that the greening cost is reduced, and the community income is increased.

(4) Aiming at domestic waste and wastewater, the method can effectively carry out green treatment and construct a set of complete green cycle.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following detailed description is given in conjunction with the preferred embodiments, together with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

FIG. 1 is a schematic diagram of a community intelligent agriculture system;

FIG. 2 is a schematic structural view of a container control shed;

FIG. 3 is a schematic structural view of a mobile frame for planting vegetables, wherein (a) is a front view; (b) is a side view;

FIG. 4 is a schematic diagram of an aquaculture configuration;

FIG. 5 is a schematic structural diagram of a community agricultural Internet of things control;

in the figure: 1-packaging a control shed; 2-vegetable planting moving rack; 3-planting the orbit; 4-river channel; 5-water area barrier; 6-shed body; 7-a supply device; 8-an internet of things control device; 9-a supply conduit; 10-a domestic waste and water quality processor; 11-a vegetable planting support; 12-planting a rotating platform; 13-a walking device; 14-an adjustment shaft; 15-planting pot; 16-vegetable cultivation control sensor; 17-an in-water scaffold; 18-a feeding device; 19-aquaculture control sensors; 20-a master control end of the Internet of things; 21-vegetable planting culture system; 22-an aquaculture system; 23-domestic waste and water systems; 24-cloud service port.

Detailed Description

Other aspects, features and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, which form a part of this specification, and which illustrate, by way of example, the principles of the invention. In the referenced drawings, the same or similar components in different drawings are denoted by the same reference numerals.

The invention provides a community intelligent agricultural system based on the Internet of things.A centralized control shed 1 is arranged at two ends of a river 4 to serve as a centralized processing center, and a water area barrier 5 is arranged in the river 4 to separate different culture water areas. Meanwhile, vegetable planting rails 3 are arranged on two sides of the river channel 4 and used for the vegetable planting movable frame 2 to walk and provide connection points for the underwater support 17.

The integrated control shed 1 comprises a shed body 6, a supply device 7, an internet of things control device 8, a supply pipeline 9 and a domestic waste and water quality processor 10. The greenhouse body 6 serves as a basic structure of the integrated control greenhouse 1, the supply device 7 supplies nutrients for the vegetable planting movable frame 2, and the Internet of things control device 8 serves as a main control device of the Internet of things and is internally provided with an Internet of things control system; the feed line 9 feeds the feeder 7. The domestic waste and water quality processor 10 provides treatment for the domestic waste and water quality of the community.

As shown in fig. 1-5, the community intelligent agricultural system based on the internet of things mainly comprises an internet of things master control terminal 20, a vegetable planting and cultivating system 21, an aquaculture system 22, a domestic waste and water quality system 23 and a cloud service port 24. The internet of things master control end 20 is a master control device arranged in the internet of things control device 8, controls the vegetable planting and culturing system 21, the aquaculture system 22 and the domestic waste and water quality system 23 in real time and receives feedback of the systems, so that real-time monitoring is achieved, and meanwhile, the internet of things master control end 20 transmits data to the cloud service port 24 to achieve real-time query and early warning functions. The cultivation system 21 is a control system composed of a cultivation moving frame 2, a cultivation rail 3, a supply device 7, and a supply duct 9. The aquaculture system 22 is a control system consisting of an underwater stand 17, a feeding device 18, and an aquaculture control sensor 19. The domestic waste and water quality system 23 is a control system consisting of a supply device 7, a supply pipeline 9, a domestic waste and water quality processor 10 and an aquaculture control sensor 19. The cloud service port 24 is a service port and provides real-time inquiry and early warning for management personnel.

The vegetable planting moving frame 2 comprises a vegetable planting support 11, a vegetable planting rotating platform 12, a walking device 13, an adjusting shaft 14, a planting pot 15 and a vegetable planting cultivation control sensor 16, wherein the vegetable planting support 11 is a basic framework with a water outlet and used for supporting the vegetable planting moving frame 2; the vegetable planting rotating platform 12 is a movable rotating device, so that the vegetable planting moving frame 2 can conveniently find an exposed angle, and the traveling devices 13 are four movable buckles arranged on the vegetable planting moving frame 2, are meshed with and not fixed with the vegetable planting rail 3 and provide traveling for the vegetable planting moving frame 2; the adjusting shaft 14 is a movable device which can move up and down, and provides higher space utilization rate for the planting pot 15; the planting pot 15 is a basic unit for cultivating green plants and is connected with a water outlet on the vegetable planting bracket 11. Cultivation control sensor 16 is planted for the control sensing device that track 3 was planted to vegetables, and support 11, rotary platform 12, running gear 13, regulating spindle 14, planting basin 15 are planted for cultivating green to provide real-time supervision, remote control, real-time inquiry, early warning function for planting to the control vegetables.

The aquaculture system 22 consists of an underwater bracket 17, a feeding device 18 and an aquaculture control sensor 19, wherein the underwater bracket 17 is a supporting device connected to the vegetable planting track 3 and is provided with a feeding pipeline connected with the feeding device 18; the feeding device 18 is a feeding device with a switch; the aquaculture control sensor 19 is a water quality monitoring and control feeding device.

Green plant operation flow: in the usual time, vegetables are planted and are removed frame 2 in collection dress control canopy 1, thing networking controlling means 8 plants removal frame 2 to the vegetables and carry out unified management to remove frame 2 to monitor the vegetables, domestic waste and water quality processor 10 recycles the external resources of recovery processing, and the resource that is recycled waters removal frame 2 through supply tube 9 and feed arrangement 7. When the sun rises, the vegetable planting moving frame 2 controls the traveling device 13 to move away from the packaging control shed 1 along with the vegetable planting rail 3 through the vegetable planting control sensor 16, and the vehicle travels to a place with abundant sunlight to make full use of the sunlight. Along with the movement of the sun, the vegetable planting movable frame 2 also moves and rotates to fully perform photosynthesis. When the sun falls, the movable vegetable planting frame 2 returns to the container control shed 1 again to wait for the next day. When harvesting is completed, harvesting will be performed in the container control shed 1.

In the aquaculture, a water area partition 5 is provided in a river 4 to separate different water areas, and different aquaculture products are fed in each water area.

The treatment of domestic waste and the treatment of water quality will be described with reference to FIG. 2:

in the domestic waste treatment and water quality treatment, the domestic waste and water quality treatment apparatus 10 recovers domestic waste to culture nutrients, and delivers the nutrients to the supply pipe 9 to culture green plants. In the aspect of water quality treatment, the aquaculture control sensor 19 monitors the water quality and regularly treats the water quality in the river channel 4.

The operation of the movable rack 2 for vegetable cultivation will be described with reference to fig. 3:

when the vegetable planting moving frame 2 travels out of the integrated control shed 1, the vegetable planting cultivation control sensor 16 controls the traveling device 13 to travel to a place where sunlight is sufficient. After the place with sufficient sunshine stops, the vegetable moving frame 2 is rotated to the direction of the sun by controlling the vegetable rotating platform 12, and the adjusting shaft 14 which controls the up-and-down movement of the planting pot 15 starts to move at the moment, so as to fully utilize the sunshine in the space. When the sunlight is shifted, the above steps are repeated. When the planting movement frame 2 is to be returned to the integrated control booth 1, the planting cultivation control sensor 16 controls the planting rotation platform 12; the adjustment shaft 14 returns to the original position. One cycle is completed.

The aquaculture and water quality monitoring will be described with reference to fig. 4:

aquaculture mainly is applicable to the community that closes on the water source, and the operation mechanism mainly relies on aquatic support 17 to throw the edible device 18 with the fodder transportation and throw the food by aquaculture control sensor 19 control, and meanwhile aquaculture control sensor 19 regards as the detection of sensor to quality of water and fish condition. When the aquaculture species are various, the water area barriers 5 are used for isolating the aquaculture species. When harvesting, only a fixed water area needs to be harvested.

The internet of things system is explained with reference to fig. 5:

when the system normally operates, the internet of things master control end 20 controls the vegetable planting and cultivating system 21, the aquaculture system 22 and the domestic waste and water quality system 23 to normally operate, data are transmitted to the cloud service port 24, and the functions of real-time monitoring, remote control and real-time query are achieved. When the vegetable planting culture system 21 and the aquaculture system 22 lack nutrients, the internet of things master control end 20 supplies the nutrients or the nutrients processed by the domestic waste and water quality system 23 to the vegetable planting culture system 21 and the aquaculture system 22. When the internet of things master control end 20 in the system receives feedback that the vegetable planting and cultivating system 21, the aquaculture system 22 and the domestic waste and water quality system 23 are in fault, the internet of things master control end 20 sends a fault alarm to the cloud service port 24 so as to realize an early warning function.

While the foregoing is directed to the preferred embodiment of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Claims (4)

1. The utility model provides a wisdom agricultural system of community based on thing networking which characterized in that includes:

the vegetable planting culture system comprises a vegetable planting moving frame, a vegetable planting rail for the vegetable planting moving frame to travel, a supply device for providing nutrients for the vegetable planting moving frame, and a supply pipeline for conveying the nutrients for the supply device;

the aquaculture system comprises an underwater bracket, a feeding device and an aquaculture control sensor, wherein the underwater bracket is connected with the vegetable planting track;

the domestic waste and water quality system comprises a domestic waste and water quality processor for recovering domestic waste to cultivate nutrients and an aquaculture control sensor for monitoring water quality;

the cloud service port is used for providing real-time inquiry and early warning for management personnel;

the general control end of the internet of things, with cultivation system, aquaculture system, domestic waste and water quality system and cloud service port are planted to the vegetables and are connected, and real-time control vegetables are planted cultivation system, aquaculture system, domestic waste and water quality system and are accepted its feedback, realize real-time supervision, and the general control end of the internet of things transmits data to cloud service port and realizes real-time inquiry and early warning function simultaneously.

2. The internet of things-based community smart agriculture system of claim 1, wherein the vegetable planting mobile rack comprises:

the vegetable planting support is used for providing support for the vegetable planting movable frame and is provided with a basic framework with a water outlet;

the vegetable planting rotating platform is a movable rotating device, and is convenient for the vegetable planting moving frame to find the sunny angle;

the traveling devices are four movable buckles which are arranged on the vegetable planting movable frame, are meshed with the vegetable planting rails and are not fixed, and provide traveling for the vegetable planting movable frame;

the adjusting shaft is a movable device which can move up and down and provides higher space utilization rate for the planting pot;

the planting pot is a basic unit for cultivating green plants and is connected with a water outlet on the vegetable planting bracket;

cultivation control sensor is planted to vegetables for vegetables plant orbital control sensing device, be used for control support, vegetables are planted, rotary platform, running gear, regulating spindle are planted to vegetables, plant the basin and provide real-time supervision, remote control, real-time inquiry, early warning function for cultivating green planting.

3. The intelligent community agricultural system based on the internet of things as claimed in claim 2, wherein the movable vegetable planting rack is located in a container control shed in normal time, the internet of things master control end performs unified management on the movable vegetable planting rack and monitors the movable vegetable planting rack, the domestic waste and water quality processor reuses recycled external resources, and the recycled resources irrigate the movable vegetable planting rack through a supply pipeline and a supply device;

when the sun rises, the vegetable planting moving frame controls the traveling device to move away from the packaging control shed along with the vegetable planting rail through the vegetable planting control sensor, and the vegetable planting moving frame runs to a place with abundant sunlight to fully utilize the sunlight; along with the movement of the sun, the vegetable planting moving frame also moves and rotates along with the movement of the sun so as to fully carry out photosynthesis;

when the sun falls, the vegetable planting moving frame returns to the packaging control shed again, waits for the next day, and when harvesting is completed, the vegetable is harvested in the packaging control shed.

4. The internet-of-things-based community smart agriculture system of claim 1, wherein the in-water rack transports feed to the feeding device and is controlled by an aquaculture control sensor to feed, and when aquaculture species are diverse, a plurality of species of aquaculture are isolated by the water area barriers.

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