CN211407155U - Intelligent electromagnetic valve control system suitable for water-saving and energy-saving irrigation in mountainous region - Google Patents

Abstract

The utility model relates to an intelligent solenoid valve control circuit suitable for mountain water-saving and energy-saving irrigation, which comprises a turbine generator, a water inlet pipe, an intelligent solenoid valve, a flow sensor, a water outlet pipe, a storage battery and a sensing acquisition and control module; one end of the water inlet pipe is connected with the turbine generator; the turbine generator is electrically connected with the intelligent electromagnetic valve and the storage battery respectively; the flow sensor is also connected with a water outlet pipe orifice; the storage battery is also respectively connected with the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module; the sensing acquisition and control module is also respectively connected with the flow sensor and the intelligent electromagnetic valve; the sensing acquisition and control module is also communicated with external mobile equipment. The utility model discloses simple structure has improved the utilization ratio of water resource, has practiced thrift the cost of a large amount of manpowers, financial resources.

Description

Intelligent electromagnetic valve control system suitable for water-saving and energy-saving irrigation in mountainous region

Technical Field

The utility model relates to an intelligent control field, especially an intelligent solenoid valve control system suitable for mountain region water conservation, energy-conserving irrigation.

Background

The existing irrigation system forms a water supply pipeline through a water supply pipe buried underground, a plurality of spray heads are connected to the water supply pipeline, the spray heads are movable spray heads or fixed spray heads, corresponding valves are opened during irrigation to enable the corresponding spray heads to spray water, and spray irrigation on greenbelt, flowers and the like is realized, the system has the defects that the valves are manual valves, when irrigation is carried out, the valves need to be manually opened and closed, and when the system is applied to an application occasion with a plurality of valves, the workload of manual operation is large, the required labor cost is large, the size of water flow of the valves is not easily controlled manually, the spray irrigation time is not easily controlled, and waste of water resources is easily caused; in China, the agricultural water consumption accounts for about 80% of the total water amount, the agricultural irrigation efficiency is generally low, the water utilization rate is only 45%, and the country with high water resource utilization rate reaches 70% -80%, so that the problem of agricultural irrigation water is solved, and the method is very important for solving the shortage of water resources.

Disclosure of Invention

In view of this, the utility model aims at providing an intelligence solenoid valve control system suitable for mountain region water conservation, energy-conserving irrigation can improve the utilization ratio of water resource, has practiced thrift a large amount of manpowers.

The utility model discloses a following scheme realizes: an intelligent electromagnetic valve control circuit suitable for water-saving and energy-saving irrigation of mountainous regions comprises a turbine generator, a water inlet pipe, an intelligent electromagnetic valve, a flow sensor, a water outlet pipe, a storage battery and a sensing acquisition and control module; one end of the water inlet pipe is connected with the turbine generator and used for converting potential energy of water flow of the water inlet pipe into kinetic energy to drive the turbine to rotate so as to generate current; the turbine generator is respectively electrically connected with the intelligent electromagnetic valve and the storage battery and used for controlling the turbine generator to generate electricity through the intelligent electromagnetic valve, and meanwhile, the turbine generator supplies the generated current to the intelligent electromagnetic valve and charges redundant electric quantity into the storage battery; the intelligent electromagnetic valve is also electrically connected with the flow sensor; the flow sensor is also connected with the water outlet pipe orifice; the storage battery is also respectively connected with the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module and used for providing electric energy for the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module; the sensing acquisition and control module is also respectively connected with the flow sensor and the intelligent electromagnetic valve, and is used for controlling the flow sensor and the intelligent electromagnetic valve and receiving water flow size data detected by the flow sensor; the sensing acquisition and control module is also communicated with the external mobile equipment.

Furthermore, the water inlet pipe and the water outlet pipe are both light-weight, pressure-resistant and corrosion-resistant PE pipes.

Further, the secondary battery is constituted by a 24V battery pack.

Further, the output voltage of the turbine generator is 24V, and the output current is 220 mA.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses simple structure has improved the utilization ratio of water resource, has practiced thrift the cost of a large amount of manpowers, financial resources.

Drawings

Fig. 1 is a block diagram of the embodiment of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings and the embodiments.

As shown in fig. 1, the present embodiment provides an intelligent solenoid valve control system suitable for water-saving and energy-saving irrigation in mountainous regions, which includes a turbine generator, a water inlet pipe, an intelligent solenoid valve, a flow sensor, a water outlet pipe, a storage battery, and a sensing acquisition and control module; one end of the water inlet pipe is connected with the turbine generator and used for converting potential energy of water flow of the water inlet pipe into kinetic energy to drive the turbine to rotate so as to generate current; the turbine generator is respectively electrically connected with the intelligent electromagnetic valve and the storage battery and used for controlling the turbine generator to generate electricity through the intelligent electromagnetic valve, and meanwhile, the turbine generator supplies the generated current to the intelligent electromagnetic valve and charges redundant electric quantity into the storage battery; the intelligent electromagnetic valve is also electrically connected with the flow sensor; the flow sensor is also connected with the water outlet pipe orifice; the storage battery is also respectively connected with the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module and used for providing electric energy for the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module; the sensing acquisition and control module is also respectively connected with the flow sensor and the intelligent electromagnetic valve, and is used for controlling the flow sensor and the intelligent electromagnetic valve and receiving water flow size data detected by the flow sensor; the sensing acquisition and control module is also communicated with the external mobile equipment.

In this embodiment, the water inlet pipe and the water outlet pipe are both made of light, pressure-resistant and corrosion-resistant PE pipes.

In the present embodiment, the secondary battery is constituted by a 24V battery pack.

In the embodiment, the output voltage of the turbine generator is 24V, and the output current is 220 mA.

Preferably, this embodiment intelligence solenoid valve, flow sensor and sensing collection and the electric energy in the battery that the control module power consumption was used, even if turbo generator does not work, electric energy in the battery still can maintain intelligent solenoid valve, flow sensor and sensing collection and control module for a period of time, outside mobile device still can carry out remote control and carry out the switching of solenoid valve, when remote control solenoid valve opened, turbo generator continued work, generate electricity during the start, thereby it is self-sufficient to go round and round so as to realize clean energy.

Preferably, one end of the water inlet pipe in this embodiment is connected to a turbine generator, and when water flows through the water inlet pipe, potential energy of the water flow is converted into kinetic energy to drive the turbine to rotate, so as to generate current. One end of the turbine generator is connected with the intelligent electromagnetic valve, the other end of the turbine generator is connected with the storage battery, and the generated current is used by the battery valve on one hand, and redundant electric quantity is charged into the storage battery on the other hand. And one end of the intelligent electromagnetic valve is connected with the turbine generator, and the other end of the intelligent electromagnetic valve is connected with the flow sensor. The flow sensor is connected with the water outlet and the sensing acquisition and control module, and transmits the collected data into the module. The storage battery is connected with the turbine generator and supplies power to the battery valve, the flow sensor and the sensing acquisition and control module. The sensing acquisition and control module is connected with the flow sensor and the battery valve and controls the flow sensor and the battery valve. The intelligent electromagnetic valve controls whether the turbine generator generates power or not, when the intelligent electromagnetic valve is closed, the turbine generator stops generating power, and at the moment, all the electric appliances are supplied with power by the storage battery. The sensing acquisition and control module collects real-time data and communicates with the cloud server by using the Internet of things card to realize the function of remote control of the mobile phone APP or the small program. The output voltage of the turbine generator is 24V, the output current is 220mA, and the electric quantity of the storage battery is consumed. The electric quantity of the storage battery is supplied to the battery valve, the flow sensor and the sensing acquisition and control module from the turbine generator. The intelligent electromagnetic valve controls whether the turbine generator generates power or not, when the intelligent electromagnetic valve is closed, the turbine generator stops generating power, and at the moment, all the electric appliances are supplied with power by the storage battery.

It is worth mentioning that the utility model protects a hardware structure, as for the control method does not require protection. The above is only a preferred embodiment of the present invention. However, the present invention is not limited to the above embodiments, and any equivalent changes and modifications made according to the present invention do not exceed the scope of the present invention, and all belong to the protection scope of the present invention.

Claims (4)

1. The utility model provides an intelligence solenoid valve control system suitable for mountain region water conservation, energy-conserving irrigation which characterized in that: the system comprises a turbine generator, a water inlet pipe, an intelligent electromagnetic valve, a flow sensor, a water outlet pipe, a storage battery and a sensing acquisition and control module; one end of the water inlet pipe is connected with the turbine generator and used for converting potential energy of water flow of the water inlet pipe into kinetic energy to drive the turbine to rotate so as to generate current; the turbine generator is respectively electrically connected with the intelligent electromagnetic valve and the storage battery and used for controlling the turbine generator to generate electricity through the intelligent electromagnetic valve, and meanwhile, the turbine generator supplies the generated current to the intelligent electromagnetic valve and charges redundant electric quantity into the storage battery; the intelligent electromagnetic valve is also electrically connected with the flow sensor; the flow sensor is also connected with the water outlet pipe; the storage battery is also respectively connected with the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module and used for providing electric energy for the intelligent electromagnetic valve, the flow sensor and the sensing acquisition and control module; the sensing acquisition and control module is also respectively connected with the flow sensor and the intelligent electromagnetic valve, and is used for controlling the flow sensor and the intelligent electromagnetic valve and receiving water flow size data detected by the flow sensor; the sensing acquisition and control module is also communicated with external mobile equipment.

2. The intelligent electromagnetic valve control system suitable for mountain water-saving and energy-saving irrigation according to claim 1, characterized in that: the water inlet pipe and the water outlet pipe are both made of light, pressure-resistant and corrosion-resistant PE pipes.

3. The intelligent electromagnetic valve control system suitable for mountain water-saving and energy-saving irrigation according to claim 1, characterized in that: the storage battery is composed of a 24V battery pack.

4. The intelligent electromagnetic valve control system suitable for mountain water-saving and energy-saving irrigation according to claim 1, characterized in that: the output voltage of the turbine generator is 24V, and the output current is 220 mA.

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