CN105724197A - Energy-saving irrigation system - Google Patents

Abstract

The invention belongs to the technical field of irrigation systems and provides an energy-saving irrigation system to achieve the technical purposes that manual operation is not needed, and water can be supplied automatically.According to the technical scheme, the energy-saving irrigation system comprises a reservoir, an irrigation pipeline, a water supply pipeline and an irrigation control module; the water supply pipeline comprises a reservoir water supply branch pipeline and a municipal water supply branch pipeline, the reservoir water supply branch pipeline is communicated with the reservoir, and the irrigation pipeline is connected with the reservoir water supply branch pipeline and the municipal water supply branch pipeline through a T joint; the irrigation control module comprises an information collecting module, a main control module, a communication module, a power module, a first relay module, a second relay module, a third relay module, a first solenoid valve, a second solenoid valve and a third solenoid valve, and the first solenoid valve, the second solenoid valve and the third solenoid valve are arranged on the irritation pipeline, the reservoir water supply branch pipeline and the municipal water supply branch pipeline respectively.The energy-saving irrigation system is suitable for the field of irrigation.

Description

Energy-saving irrigation system

Technical field

Energy-saving irrigation system of the present invention, belongs to the technical field of irrigation system.

Background technology

It is known that, water is irreplaceable fundamental in all life process, water resource is the important foundation resource of national economy and social development, in recent years, raising along with population increase, economic development and the level of urbanization, the contradiction of supply and demand for the water resource is becoming increasingly acute, and agricultural arid hydropenia and shortage of water resources have become the important restriction factor of China's economy and social development.

By statistics, China's hydropenia 358 medium dry year billion cubic meter, wherein agricultural irrigation hydropenia 300 billion cubic meter, China's agricultural water proportion drops to current about 70% from 88% in 1980, also may proceed to from now on decline, the situation of agricultural arid hydropenia is irreversible, how to tackle hydropenia environment, solves agricultural arid water shortage problem and has become as the major issue of the relation people's livelihood.

Traditional irrigation method many employings municipal water supply is timed irrigation, this mode cannot be irrigated according to the exsiccosis of actual crops, cause that irrigation time is different in size, not only cause the waste of water resource, and it is unfavorable for the growth of crops, therefore, a kind of just can carry out the energy-saving irrigation system of automatic irrigation according to the growth needs of crops without manual operation and be just particularly important.

Summary of the invention

The present invention overcomes the deficiency that prior art exists, technical problem to be solved to be: provide a kind of do not need manual operation, can the energy-saving irrigation system of automatic water-supply.

In order to solve above-mentioned technical problem, the technical solution used in the present invention is:

Energy-saving irrigation system, including: cistern, irrigation pipeline, supply channel and irrigation control module, described supply channel includes: cistern water supply bye-pass and municipal water supply bye-pass, described cistern water supply bye-pass connects with cistern, and described irrigation pipeline is connected with cistern water supply bye-pass and municipal water supply bye-pass respectively by threeway；Described irrigation control module includes: information acquisition module, main control module, communication module, power module, first relay module, second relay module, 3rd relay module, first electromagnetic valve, second electromagnetic valve and the 3rd electromagnetic valve, described first electromagnetic valve, second electromagnetic valve and the 3rd electromagnetic valve are separately positioned on irrigation pipeline, on cistern water supply bye-pass and municipal water supply bye-pass, described information acquisition module, communication module, power module, first relay module, second relay module, 3rd relay module, it is connected with described main control module respectively, described first relay module, second relay module, 3rd relay module respectively with described first electromagnetic valve, second electromagnetic valve and the 3rd electromagnetic valve are connected.

In the present invention, described information acquisition module includes: soil temperature sensor, soil humidity sensor, optical sensor, rain sensor and cistern level sensor, described soil temperature sensor, soil humidity sensor, optical sensor, rain sensor and cistern level sensor all with described main control module；Described system also includes the 4th relay module and the 4th electromagnetic valve, and the bottom of described cistern is provided with leaking hole, and leaking hole place is located at by described 4th electromagnetic valve, and described 4th electromagnetic valve is connected with main control module by the 4th relay module；Described cistern level sensor includes: the first level sensor and the second level sensor, described first level sensor is positioned at the low water line place of cistern inwall, described second level sensor is positioned at the high-water line place of cistern inwall, and described first level sensor and the second level sensor are connected with described main control module respectively.

Described main control module includes: timing control module, periodic Control module and hands automatic irrigation mode switch module；Described communication module is wireless communication module, or is wire communication module；

nullThe present invention compared with prior art has the advantages that in the present invention，By information acquisition module Real-time Collection cistern water position status and soil irrigation demand information，And send a signal to main control module，Soil is carried out comprehensive descision the need of irrigation by main control module，When soil hydropenia and cistern water yield abundance，Master control module controls the first relay module and the second relay module action，First relay module and the second relay module control the first electromagnetic valve respectively and the second electromagnetic valve is opened，Open accumulator water supply function，When soil hydropenia and cistern water shortage，Master control module controls the first relay module and the 3rd relay module action，First relay module and the 3rd relay module control the first electromagnetic valve respectively and the 3rd electromagnetic valve is opened，Open municipal water supply function，The present invention is without manually just irrigating，Simple in construction，Save cost of labor，In addition，The present invention passes through cistern as supplementing that conventional municipal supplies water，Water source in cistern can be other water source available after rainwater or other artificial treatment，Save municipal water supply，Good energy-conserving effect.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the present invention will be further described in detail.

Fig. 1 is the pipeline structure schematic diagram of the present invention；

Fig. 2 is the electrical block diagram of the present invention；

In figure: 1 is irrigation pipeline, 2 is cistern water supply bye-pass, and 3 is municipal water supply bye-pass, 4 is tee T, and 5 is information acquisition module, and 6 is main control module, 7 is communication module, 8 is power module, and 9 is the first relay module, and 10 is the second relay module, 11 is the 3rd relay module, 12 is the first electromagnetic valve, and 13 is the second electromagnetic valve, and 14 is the 3rd electromagnetic valve.

Detailed description of the invention

As shown in Figure 1 and Figure 2, energy-saving irrigation system, including: cistern, irrigation pipeline 1, supply channel and irrigation control module, described supply channel includes: cistern water supply bye-pass 2 and municipal water supply bye-pass 3, described cistern water supply bye-pass 2 connects with cistern, and described irrigation pipeline 1 is connected with cistern water supply bye-pass 2 and municipal water supply bye-pass 3 respectively by tee T 4；nullDescribed irrigation control module includes: information acquisition module 5、Main control module 6、Communication module 7、Power module 8、First relay module 9、Second relay module 10、3rd relay module 11、First electromagnetic valve 12、Second electromagnetic valve 13 and the 3rd electromagnetic valve 14，Described first electromagnetic valve 12、Second electromagnetic valve 13 and the 3rd electromagnetic valve 14 are separately positioned on irrigation pipeline 1、On cistern water supply bye-pass 2 and municipal water supply bye-pass 3，Described information acquisition module 5、Communication module 7、Power module 8、First relay module 9、Second relay module 10、3rd relay module 11，It is connected with described main control module 6 respectively，Described first relay module 9、Second relay module 10、3rd relay module 11 respectively with described first electromagnetic valve 12、Second electromagnetic valve 13 is connected with the 3rd electromagnetic valve 14.

In the present embodiment, by information acquisition module 5 Real-time Collection cistern water position status and soil irrigation demand information, and send a signal to main control module 6, soil is carried out comprehensive descision the need of irrigation by main control module 6, when soil hydropenia and cistern water yield abundance, main control module 6 controls the first relay module 9 and the second relay module 10 action, first relay module 9 and the second relay module 10 control the first electromagnetic valve 12 respectively and the second electromagnetic valve 13 is opened, and enter accumulator water supply pattern；When soil hydropenia and cistern water shortage, master control module controls 6 first relay module 9 and the 3rd relay module 11 action, first relay module 9 and the 3rd relay module 10 control the first electromagnetic valve 12 respectively and the 3rd electromagnetic valve 14 is opened, and enters municipal water supply pattern.

Specifically, described information acquisition module 5 includes: soil temperature sensor, soil humidity sensor, optical sensor, rain sensor and cistern level sensor, described soil temperature sensor, soil humidity sensor, optical sensor, rain sensor and cistern level sensor are all connected with described main control module 6；Main control module 6 is by soil temperature sensor, soil humidity sensor, optical sensor, rain sensor comprehensive descision the need of irrigating, by cistern level sensor, main control module 6 judges whether the cistern water yield meets duty demand.

Further, described system also includes the 4th relay module and the 4th electromagnetic valve, the bottom of described cistern is provided with leaking hole, leaking hole place is located at by described 4th electromagnetic valve, described 4th electromagnetic valve is connected with main control module 6 by the 4th relay module, described cistern level sensor includes: the first level sensor and the second level sensor, described first level sensor is positioned at the low water line place of cistern inwall, described second level sensor is positioned at the high-water line place of cistern inwall, described first level sensor and the second level sensor are all connected with described main control module 6 respectively；When the second level sensor detects in cistern water level higher than high-water line, sending a signal to main control module 6, main control module 6 is opened the 4th electromagnetic valve by control the 4th relay module and is carried out drainage works.

In the present embodiment, described main control module 6 includes: timing control module, periodic Control module and hands automatic irrigation mode switch module；Described communication module 7 is wireless communication module, or is wire communication module.

Energy-saving irrigation system of the present invention, provide a kind of do not need manual operation, can the energy-saving irrigation system of automatic water-supply, there is prominent substantive distinguishing features and progress, above in conjunction with accompanying drawing, embodiments of the invention are explained in detail, but the present invention is not limited to above-described embodiment, in the ken that those of ordinary skill in the art possess, it is also possible to make various change under the premise without departing from present inventive concept.

Claims (6)

1. energy-saving irrigation system, including: cistern, irrigation pipeline (1), supply channel and irrigation control module, it is characterized in that: described supply channel includes: cistern water supply bye-pass (2) and municipal water supply bye-pass (3), described cistern water supply bye-pass (2) connects with cistern, and described irrigation pipeline (1) is connected with cistern water supply bye-pass (2) and municipal water supply bye-pass (3) respectively by tee T (4)；

nullDescribed irrigation control module includes: information acquisition module (5)、Main control module (6)、Communication module (7)、Power module (8)、First relay module (9)、Second relay module (10)、3rd relay module (11)、First electromagnetic valve (12)、Second electromagnetic valve (13) and the 3rd electromagnetic valve (14)，Described first electromagnetic valve (12)、Second electromagnetic valve (13) and the 3rd electromagnetic valve (14) are separately positioned on irrigation pipeline (1)、On cistern water supply bye-pass (2) and municipal water supply bye-pass (3)，Described information acquisition module (5)、Communication module (7)、Power module (8)、First relay module (9)、Second relay module (10)、3rd relay module (11)，It is connected with described main control module (6) respectively，Described first relay module (9)、Second relay module (10)、3rd relay module (11) respectively with described first electromagnetic valve (12)、Second electromagnetic valve (13) is connected with the 3rd electromagnetic valve (14).

2. the energy-conservation irrigation control system of one according to claim 1, it is characterized in that: described information acquisition module (5) including: soil temperature sensor, soil humidity sensor, optical sensor, rain sensor and cistern level sensor, described soil temperature sensor, soil humidity sensor, optical sensor, rain sensor and cistern level sensor are all connected with described main control module (6).

3. the energy-conservation irrigation control system of one according to claim 1, it is characterized in that: described system also includes the 4th relay module and the 4th electromagnetic valve, the bottom of described cistern is provided with leaking hole, leaking hole place is located at by described 4th electromagnetic valve, and described 4th electromagnetic valve is connected with main control module (6) by the 4th relay module.

4. the energy-conservation irrigation control system of one according to claim 2, it is characterized in that: described cistern level sensor includes: the first level sensor and the second level sensor, described first level sensor is positioned at the low water line place of cistern inwall, described second level sensor is positioned at the high-water line place of cistern inwall, and described first level sensor and the second level sensor are all connected with described main control module (6) respectively.

5. according to the arbitrary described energy-conservation irrigation control system of one of Claims 1-4, it is characterised in that: described main control module (6) including: timing control module, periodic Control module and hands automatic irrigation mode switch module.

6. the energy-conservation irrigation control system of one according to claim 1, it is characterised in that: described communication module (7) is wireless communication module, or is wire communication module.