CN202773603U - Elevated road greening internet-of-things management system - Google Patents

Elevated road greening internet-of-things management system Download PDF

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Publication number
CN202773603U
CN202773603U CN 201220417577 CN201220417577U CN202773603U CN 202773603 U CN202773603 U CN 202773603U CN 201220417577 CN201220417577 CN 201220417577 CN 201220417577 U CN201220417577 U CN 201220417577U CN 202773603 U CN202773603 U CN 202773603U
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CN
China
Prior art keywords
internet
management system
communication module
viaduct
wireless communication
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Expired - Fee Related
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CN 201220417577
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Chinese (zh)
Inventor
李�瑞
曹帅
江建荣
倪亮亮
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SHANGHAI HONGWEI INFORMATION TECHNOLOGY Co Ltd
SHANGHAI HONGWEI INTERNET OF THINGS TECHNOLOGY ENGINEERING Co Ltd
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SHANGHAI HONGWEI INFORMATION TECHNOLOGY Co Ltd
SHANGHAI HONGWEI INTERNET OF THINGS TECHNOLOGY ENGINEERING Co Ltd
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Priority to CN 201220417577 priority Critical patent/CN202773603U/en
Application granted granted Critical
Publication of CN202773603U publication Critical patent/CN202773603U/en
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Abstract

The utility model discloses an elevated road greening internet-of-things management system. The management system consists of an irrigation system, a terminal data acquisition node, a terminal control node, a wireless gateway and a comprehensive data processing server, wherein both the terminal data acquisition node and the terminal control node are provided with a wireless communication module; the wireless communication module is communicated with the wireless gateway; and the wireless gateway is then connected to the comprehensive data processing server through a wireless communication network and an INTERNET network in sequence. The elevated road greening internet-of-things management system has high extensibility and can be used for performing monitoring on the greening of an elevated road in real time and timely performing maintenance work such as irrigation and fertilization according to the monitoring condition, so that the greening management efficiency of the elevated road is greatly increased; and the system has the advantage of saving manpower and material resources for greening management of the elevated road.

Description

A kind of viaduct greening management system for internet of things
Technical field
The utility model relates to a kind of greening management system, relates in particular to viaduct greening management system.
Background technology
Along with the fast development of urban highway traffic, overpass has been built up in many big and medium-sized cities.For beautify the environment and absorbing environmental in harmful substance and dust, often can afforest, plant some flowers and plants on the overpass.But afforest management and maintain on the viaduct and be always a difficult problem.The at present maintenance of the overpass afforestation vegetation in some city mainly relies on manually, but mode can there are the following problems for artificial greening management and maintain:
1, needs to drop into a large amount of manpowers, waste time and energy;
2, there is potential safety hazard: the danger such as staff's operation on the viaduct has traffic accident, fall;
3, artificial maintenance exists reaction untimely unavoidably, makes a fault easily, causes vegetation dead.
Also greening management in the viaduct in some city is lived at the mercy of the elements purely especially, appoints afforestation vegetation self from going out.
The utility model content
For this reason, technical problem to be solved in the utility model provides a kind of viaduct greening management system for internet of things, this management system has very strong autgmentability, Real Time Monitoring and the automatic maintenance of viaduct afforestation vegetation have been realized, can save the manpower and materials of overhead road of city road greening management, realize more efficiently management.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
A kind of viaduct greening management system for internet of things is characterized in that: be comprised of irrigation system, terminal data acquisition node, terminal control node, radio network gateway, integrated data processing server;
Described irrigation system comprises the drip irrigation delivery port of afforestation vegetation top, distribution viaduct and the water pump that is connected with the drip irrigation delivery port;
Described terminal data acquisition node is made of the soil sensor that is arranged in soil, AD modular converter, Programmable Logic Controller, wireless communication module and power transfer module; Described soil sensor connects the AD modular converter, and described AD modular converter, wireless communication module and power transfer module all connect Programmable Logic Controller;
Described terminal control node apparatus is made of relay, Programmable Logic Controller, wireless communication module and power transfer module; Described water pump is connected to relay, and described relay, wireless communication module and power transfer module all connect Programmable Logic Controller;
Described wireless communication module and radio network gateway communication connection; Described radio network gateway arrives the integrated data processing server by cordless communication network, INTERNET network connection more successively.
Described cordless communication network also is directly connected to user mobile phone terminal.
Described INTERNET network is also connected to user's PC terminal.
Described wireless communication module is zigbee communication module or wifi communication module or the combination of the two.
Described cordless communication network is GPRS network or wifi network.
Described irrigation system also comprises the cistern that is positioned at below ground, described cistern and water pump, viaduct rain pipe and road drainage pipeline communication.Can utilize like this rainwater of collecting at ordinary times to irrigate, thereby reach the purpose of water saving.
In addition, described irrigation system also is provided with fertilizer can on the cistern side, and described fertilizer can has the fertilizer electrically operated valve that is communicated to cistern, and described fertilizer electrically operated valve is connected to described relay.Like this, can in tank, add fertilizer as required, to satisfy the growth needs of vegetation.
Adopt technique scheme, greening management system for internet of things in viaduct of the present utility model has very strong autgmentability, can monitor in real time the viaduct greening, and can in time fill with according to the monitoring situation, the maintenance work such as fertilising, thereby greatly improve so that the efficient of management is afforested in the viaduct, and have the advantage of saving viaduct greening managing human material resources.
Description of drawings
Below in conjunction with the drawings and specific embodiments the utility model is elaborated:
Fig. 1 is system architecture schematic diagram of the present utility model;
Fig. 2 is irrigation system structural representation of the present utility model;
Fig. 3 is terminal data acquisition node structural representation;
Fig. 4 is terminal control node structure schematic diagram;
Fig. 5 is the radio network gateway structural representation.
Embodiment
As shown in Figure 1, greening management system for internet of things in viaduct of the present utility model comprises that irrigation system 10, terminal data acquisition node 100, terminal control node 200, radio network gateway 300, data processing server 400, user mobile phone terminal 501, user's PC terminal 502 form.
Wherein, as shown in Figure 2, irrigation system 10 comprises drip irrigation delivery port 11, water pump 12, tank 13, fertilizer can 14.Wherein tank 13 is positioned at subsurface, and drip irrigation delivery port 11 is distributed in afforestation vegetation top, viaduct, and water pump 12 water inlets connect tank 13, and the water side is connected to drip irrigation delivery port 11 through water pipe.Viaduct rain pipe 15 and road drainage pipeline 16 then are connected to tank 13.Fertilizer can 14 is positioned at tank 13 next doors, and it has the fertilizer electrically operated valve 17 that is communicated to tank 13.
As shown in Figure 3, terminal data acquisition node 100 is made of the soil sensor 101 that is arranged in soil, AD modular converter 102, Programmable Logic Controller 602, wireless communication module 601 and power transfer module 603.Wherein soil sensor 101 connects AD modular converters 102, and AD conversion electric power modular converter 102, wireless communication module 601, power transfer module 603 all connect Programmable Logic Controller 602.
In terminal data acquisition node 100, soil sensor 101 is used for gathering humidity, the nutrient data of soil, because the data that gather are analogue datas, therefore convert analogue data to digital data transfer to Programmable Logic Controller 602 by AD modular converter 102, by wireless communication module 601 transfer of data is being gone out.Power transfer module 603 obtains to guarantee the electric energy of terminal data acquisition node work from civil power or solar powered module.
As shown in Figure 4, terminal control node 200 is made of relay 201, Programmable Logic Controller 602, wireless communication module 603 and power transfer module 601; Water pump 12 and fertilizer electrically operated valve 17 all are connected to relay 201, and relay 201, wireless communication module 601 and power transfer module 603 all connect Programmable Logic Controller 602.
In this terminal data control node 200, wireless communication module 601 is accepted instruction to Programmable Logic Controller 602, in the inadequate situation of soil nutrient, open fertilizer electrically operated valves 17 to cistern 700 interior interpolation fertilizer by relay 202 controls, and in the situation that soil moisture lacks, start water pump 201 to afforestation vegetation 701 sprays or irrigation by relay 202.
Wireless communication module 601 is zigbee communication module or wifi communication module or the combination of the two.
In Fig. 1, wireless communication module 601 arrives INTERNET network more successively by cordless communication network such as GPRS network or wifi network connection with radio network gateway 300 communication connections, radio network gateway 300.The INTERNET network is connected to terminal data processing server 400 through fire wall.In addition, GPRS network also directly connects user mobile phone terminal 501, and the INTERNET direct network connects user's PC terminal in succession.
In above-mentioned terminal data acquisition node 100 and terminal data control node 200, Programmable Logic Controller 602, wireless communication module 601 and power transfer module 603 can share same module.
More than be exactly greening management system for internet of things in viaduct of the present utility model, its working method is as follows:
Terminal data acquisition node 100 gathers the humidity of viaduct afforestation vegetation soil, the acid-base value of soil, the information such as the ammonia-nitrogen content of soil, form Frame by the agreement of formulating, by zigbee or wifi communication module transmitting data frame to radio network gateway, gateway node initializes a network, and a Frame of accepting is converted to the tcp/ip protocol format, access the internet Internet Transmission to terminal data processing server 400 by gprs module or rj45 network interface module, software platform carries out analyzing and processing to Frame on the server, then according to mode of operation the following scheme of carrying out respectively is set:
(1) automatic mode: the server software platform returns command frame to corresponding radio network gateway by the internet network, radio network gateway is resolved transferring frames data to counterpart terminal by frame and is controlled node, the terminal control node is resolved instruction and is carried out chief minister's seal operation (irrigation, fertilising etc.), and corresponding data and operating result show by internet network or gprs network delivery to user mobile phone or pc machine terminal.
(2) manual mode: corresponding data is shown by internet network or gprs network delivery to user mobile phone or pc machine terminal.The user sets instruction at display terminal and is back to server with the frame form by internet network or gprs network, the server software platform passes through internet Internet Transmission command frame to corresponding radio network gateway, radio network gateway is resolved transferring frames data to counterpart terminal by frame and is controlled node, the terminal control node is resolved instruction and is carried out chief minister's seal operation (irrigating fertilising etc.).
As shown in Figure 5, the communication function of radio network gateway is divided into two parts: (1) zigbee communication module and wifi communication module combine, and initialize a zigbee or wifi network, make terminal data data acquisition and controlling node have network to add.(2) the ARM9 flush bonding processor Frame that transmission comes up to node is capable resolves and uses 64 secret keys and encrypt, and then uses gprs module or rj45 network interface module to dock with internet, with tcp/ip agreement transmission Frame to server.
In this viaduct greening management system for internet of things, terminal data processing server 400 is built in network firewall inside, and open specific network ports is used for receive data, is processing after by secret key data being verified.
By foregoing detailed description, can find out that greening management system for internet of things in viaduct of the present utility model has following advantage:
1, autgmentability is strong.The attributes of network of Zigbee-technology and wifi technology makes new node can add easily system, overpass and the viaduct greening installation of applicable and different forms.
2, realized the fusion of multiple zigbee, wifi, three kinds of communication technologys of gprs, made under the environment that gprs signal and internet network are arranged, can using of system.
3, realized Real Time Monitoring and the automatic maintenance of viaduct afforestation vegetation, can save the manpower and materials of viaduct greening management, so that city green lake management is more efficient.
But, those of ordinary skill in the art will be appreciated that, above embodiment illustrates the utility model, and be not to be used as restriction of the present utility model, as long as in connotation scope of the present utility model, all will drop in claims scope of the present utility model variation, the modification of the above embodiment.

Claims (7)

1. a viaduct greening management system for internet of things is characterized in that: be comprised of irrigation system, terminal data acquisition node, terminal control node, radio network gateway, integrated data processing server;
Described irrigation system comprises the drip irrigation delivery port of afforestation vegetation top, distribution viaduct and the water pump that is connected with the drip irrigation delivery port;
Described terminal data acquisition node is made of the soil sensor that is arranged in soil, AD modular converter, Programmable Logic Controller, wireless communication module and power transfer module; Described soil sensor connects the AD modular converter, and described AD modular converter, wireless communication module and power transfer module all connect Programmable Logic Controller;
Described terminal control node apparatus is made of relay, Programmable Logic Controller, wireless communication module and power transfer module; Described water pump is connected to relay, and described relay, wireless communication module and power transfer module all connect Programmable Logic Controller;
Described wireless communication module and radio network gateway communication connection; Described radio network gateway arrives the integrated data processing server by cordless communication network, INTERNET network connection more successively.
2. management system for internet of things is afforested in viaduct according to claim 1, and it is characterized in that: described cordless communication network also is directly connected to user mobile phone terminal.
3. according to greening management system for internet of things in viaduct according to claim 1 and 2, it is characterized in that: described INTERNET network is also connected to user's PC terminal.
4. management system for internet of things is afforested in viaduct according to claim 1, and it is characterized in that: described wireless communication module is zigbee communication module or wifi communication module or the combination of the two.
5. management system for internet of things is afforested in viaduct according to claim 1, and it is characterized in that: described cordless communication network is GPRS network or wifi network or the combination of the two.
6. management system for internet of things is afforested in viaduct according to claim 1, and it is characterized in that: described irrigation system also comprises the cistern that is positioned at below ground, described cistern and water pump, viaduct rain pipe and road drainage pipeline communication.
7. management system for internet of things is afforested in viaduct according to claim 6, it is characterized in that: described irrigation system is at the other fertilizer can that also is provided with of cistern, described fertilizer can has the fertilizer electrically operated valve that is communicated to cistern, and described fertilizer electrically operated valve is connected to described relay.
CN 201220417577 2012-08-21 2012-08-21 Elevated road greening internet-of-things management system Expired - Fee Related CN202773603U (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105309281A (en) * 2015-10-14 2016-02-10 锡山区先锋家庭农场 Automatic control micro-irrigation device
CN105941098A (en) * 2016-05-23 2016-09-21 南京邮电大学 Automatic irrigation control system based on Zigbee
CN106359014A (en) * 2016-08-26 2017-02-01 合肥康胜达智能科技有限公司 Outdoor automatic watering system for smart home
CN107231936A (en) * 2017-07-27 2017-10-10 苏州星川园艺绿化有限公司 A kind of management method on gardening meadow
CN107942867A (en) * 2017-12-01 2018-04-20 浙江天地人科技有限公司 A kind of urban afforestation intelligent management system
CN110469520A (en) * 2018-05-11 2019-11-19 上海威派格智慧水务股份有限公司 The mobile debugging system of integrated water pump and method

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105309281A (en) * 2015-10-14 2016-02-10 锡山区先锋家庭农场 Automatic control micro-irrigation device
CN105941098A (en) * 2016-05-23 2016-09-21 南京邮电大学 Automatic irrigation control system based on Zigbee
CN106359014A (en) * 2016-08-26 2017-02-01 合肥康胜达智能科技有限公司 Outdoor automatic watering system for smart home
CN107231936A (en) * 2017-07-27 2017-10-10 苏州星川园艺绿化有限公司 A kind of management method on gardening meadow
CN107942867A (en) * 2017-12-01 2018-04-20 浙江天地人科技有限公司 A kind of urban afforestation intelligent management system
CN110469520A (en) * 2018-05-11 2019-11-19 上海威派格智慧水务股份有限公司 The mobile debugging system of integrated water pump and method

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CF01 Termination of patent right due to non-payment of annual fee
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Granted publication date: 20130313

Termination date: 20190821