CN202773605U - Elevated road greening irrigation control system by utilizing solar energy - Google Patents

Abstract

The utility model discloses an elevated road greening irrigation control system by utilizing solar energy. The elevated road greening irrigation control system comprises a programmable logic controller, a humidity sensor, an AD (analog to digital) conversion module, a relay, a wireless communication module, a power supply conversion module, a solar energy power supply module, a water pump and an irrigation water transmission pipe, wherein the humidity sensor is electrically connected with the AD conversion module; the AD conversion module, the relay, the wireless communication module and the power supply conversion module are electrically connected with the programmable logic controller; the relay is also electrically connected with the water pump; the solar energy power supply module also comprises a solar battery panel, a solar control plate and a storage battery; the solar control plate is electrically connected with the solar battery panel, the storage battery and the power supply conversion module; and a water outlet of the water pump is connected with the irrigation water transmission pipe. With the adoption of the elevated road greening irrigation control system by utilizing the solar energy, convenient and scientific management and maintenance are realized on the elevated road greening; and the elevated road greening irrigation control system has the advantages of time and labor saving, safety, energy conservation and environment friendliness.

Description

A kind of viaduct green area irrigation control system of utilizing solar energy

Technical field

The utility model relates to a kind of green area irrigation technical field, relates in particular to viaduct green area irrigation control 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 overhead has traffic accident, fall;

3, artificial maintenance exists reaction untimely unavoidably, causes vegetation dead thereby make a fault easily;

Also greening management in the viaduct in some city is lived at the mercy of the elements purely especially, appoints afforestation vegetation to run its course.

The utility model content

For this reason, technical problem to be solved in the utility model provides a kind of overhead green area irrigation control system of utilizing solar energy, to realize that the management and maintain of viaduct greening is realized remote auto control, overcomes the deficiency that prior art exists.

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of overhead green area irrigation control system of utilizing solar energy, it is characterized in that: comprise Programmable Logic Controller, humidity sensor, AD modular converter, relay, wireless communication module, power transfer module, solar powered module, water pump and irrigation water delivery pipe; Described humidity sensor is electrically connected the AD modular converter, and described AD modular converter, relay, wireless communication module, power transfer module all are electrically connected with Programmable Logic Controller, and described relay also is electrically connected water pump; Described solar powered module comprises solar panel, solar control plate and accumulator, and described solar control plate all is electrically connected with solar panel, accumulator and power transfer module; The delivery port of described water pump connects the irrigation water delivery pipe.

For guaranteeing that system can obtain the required electric energy of work in without the situation of the sun, described power transfer module is also connected in the civil power.

Described wireless communication module is zigbee communication module or wifi communication module or the combination of the two.

In the utility model, by adopting Programmable Logic Controller, humidity sensor, AD modular converter, relay, water pump, water-supply-pipe, can realize the Real-Time Monitoring to soil moisture, and in time irrigate, irrigate as required to the viaduct afforestation vegetation, the blindness of having avoided manual type to irrigate according to detection case.Utilize simultaneously solar energy to be system power supply, have the advantage of energy-saving and environmental protecting.And the employing wireless communication module can so that native system can be realized carrying out automatic or manual control by remote server or user control terminal, make things convenient for the management and maintain to overhead greening.

Therefore, the utility model realized to viaduct greening carry out conveniently, scientific management and maintenance, have the advantage of time saving and energy saving, safety, energy-saving and environmental protecting.

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.

Embodiment

As shown in Figure 1, a kind of overhead greening intelligent irrigation control system that utilizes solar energy of the present utility model, comprise Programmable Logic Controller 101, humidity sensor 102, AD modular converter 103, relay 104, water pump 105, wireless communication module 107, power transfer module 108, irrigation water delivery pipe 109 solar powered modules 110.

Wherein, humidity sensor 102 is electrically connected AD modular converter 103, and AD modular converter 103, relay 104, wireless communication module 107, power transfer module 108 all are electrically connected with Programmable Logic Controller 101, relay 104 also is electrically connected water pump 105, and the delivery port of water pump 105 connects irrigation water delivery pipe 109.

Solar powered module 110 comprises solar panel 111, solar control plate 112 and accumulator 113.Wherein, solar panel 111, accumulator 113 and power transfer module 108 all are electrically connected solar control plate 112.

Also can work in without the situation of the sun for the assurance system, power transfer module 108 is also connected in the civil power 114.

Wireless communication module is zigbee communication module or wifi communication module or the combination of the two.

More than be exactly the overhead green ring irrigation control system that utilizes solar energy of the present utility model, its working method is as follows:

The humidity of humidity sensor 102 Real-Time Monitoring soil, and become digital data transmission to control 101 able to programme the humidity analog signal conversion by AD modular converter 103, then by wireless communication module 107 the soil moisture data communication device being crossed communication network is transferred in the remote server, remote server can carry out feedback command by automatic mode or manual mode, if soil moisture is lower than setting value, remote server will send command signal, at this moment wireless communication module 107 will receive command signal and be transferred to and become controller 101, and Programmable Logic Controller 101 is followed signal transmission to relay 104, starts water pumps 105 by relay 104.Water pump 105 water that just can extract in the cistern 115 is irrigated to the viaduct afforestation vegetation by irrigation water delivery pipe 109 like this.

In native system, be by the required electric energy of solar powered module 110 acquisition work.Solar panel 112 gathers sunshines and is converted into electric energy and is transported in the accumulator 113 by solar control plate 112 and stores.When system works need to be used electric energy, solar control plate 112 will obtain electric energy from accumulator 113, and was transported to power transfer module 108, converted operating voltage and electric current supply system to through power transfer module 108.

If lacking in the situation of sunshine, power transfer module 108 can also directly be obtained electric energy from civil power.

By above-mentioned detailed introduction, can find out, the utlity model has following advantage:

1, do not need manually to participate in directly, saved manpower, time saving and energy saving, avoided manual type that the viaduct greening is irrigated existing traffic accident and fallen hidden danger simultaneously yet.

2, Real Time Monitoring, in time irrigate, irrigate as required, so that the maintenance of overhead greening science more is conducive to the growth of overhead afforestation vegetation more.

3, do not need to consume extra electric energy, have the energy-saving and environmental protecting advantage.

Therefore, in sum, the utility model realized to viaduct greening carry out conveniently, scientific management and maintenance, have the advantage of time saving and energy saving, safety, energy-saving and environmental protecting.

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 (3)

1. viaduct green area irrigation control system of utilizing solar energy, it is characterized in that: comprise Programmable Logic Controller, humidity sensor, AD modular converter, relay, wireless communication module, power transfer module, solar powered module, water pump and irrigation water delivery pipe; Described humidity sensor is electrically connected the AD modular converter, and described AD modular converter, relay, wireless communication module, power transfer module all are electrically connected with Programmable Logic Controller, and described relay also is electrically connected water pump; Described solar powered module comprises solar panel, solar control plate and accumulator, and described solar control plate all is electrically connected with solar panel, accumulator and power transfer module; The delivery port of described water pump connects the irrigation water delivery pipe.

2. the viaduct green area irrigation control system of utilizing solar energy according to claim 1, it is characterized in that: described power transfer module is also connected in the civil power.

3. the viaduct green area irrigation control system of utilizing solar energy according to claim 1, it is characterized in that: described wireless communication module is zigbee communication module or wifi communication module or the combination of the two.