CN212971105U - High-efficient accurate field water supply system - Google Patents

Abstract

The utility model discloses a high-efficient accurate field water supply system, it includes: the water storage device is internally provided with a first liquid level meter, a heating device and a water temperature sensor; each water supply pipe is provided with a water pumping structure; the controller is connected with the first liquid level meter, the heating device, the water temperature sensor and the water pumping structure; the frequency converter is internally provided with a PID regulator and is connected with the controller and the water pumping structure; an alarm device; a display; a control switch; a communication module; a plurality of second level gauge, every field that needs to supply water is equipped with a second level gauge, the second level gauge is connected with the controller. The utility model discloses can realize the accurate irrigation of crops for crops can carry out the growth of optimization.

Description

High-efficient accurate field water supply system

Technical Field

The utility model relates to an agricultural field, concretely relates to high-efficient accurate field water supply system.

Background

Crops generally need to be irrigated in the production process, and the amount of irrigation sometimes determines the growth of the crops.

The existing irrigation mode generally pumps water out of a pool or a river through a water supply pipe and then directly conveys the water to a field for irrigation, so that the irrigation quantity cannot be accurately controlled, and the crops cannot grow optimally.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve above-mentioned problem to a high-efficient accurate field water supply system is provided.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

an efficient and accurate field water supply system, comprising:

the water storage device is internally provided with a first liquid level meter, a heating device and a water temperature sensor;

the water supply pipes are communicated with the water storage device, each water supply pipe is provided with a water pumping structure, and water in the water storage device can be pumped out by the water pumping structure to supply water to the corresponding field;

the controller is connected with the first liquid level meter, the heating device, the water temperature sensor and the water pumping structure;

the frequency converter is internally provided with a PID regulator and is connected with the controller and the water pumping structure;

the alarm device is connected with the controller;

the display is connected with the controller;

the control switch is connected with the controller;

the communication module is connected with the controller;

a plurality of second level gauge, every field that needs to supply water is equipped with a second level gauge, the second level gauge is connected with the controller.

In the utility model discloses a preferred embodiment, the structure of drawing water includes water pump, motor, control valve and pressure sensor, the motor is connected with the water pump drive, the controller is connected with motor and control valve, pressure sensor is connected with the converter.

In a preferred embodiment of the present invention, the alarm device is an audible and visual alarm.

In a preferred embodiment of the present invention, the communication module is a GPS module or a WIFI module.

In the utility model discloses a preferred embodiment, field water supply system still includes the cloud ware, the controller passes through communication module with received data and control information and uploads to the cloud ware in.

In a preferred embodiment of the present invention, the controller directly transmits the received data and control information to the mobile phone of the user through the communication module.

The utility model has the advantages that:

the utility model discloses can realize the accurate irrigation of crops for crops can carry out the growth of optimization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further explained below.

Referring to fig. 1, the utility model provides a high-efficient accurate field water supply system, it includes water storage device 100, a plurality of delivery pipe 200, controller 300, converter 400, alarm device 510, display 520, control switch 530, communication module 540 and a plurality of second level gauge.

The water storage device 100 is used for storing a water source, and is specifically a reservoir which is open, so that rainwater and dew can be collected, and resources are saved.

The water storage device 100 is provided therein with a first liquid level gauge 110, a heating device, and a water temperature sensor.

The first liquid level meter 110 is used for measuring the water level in the water storage device 100 in real time, the heating device can heat the water source stored in the water storage device 100 to improve the water temperature, and the water temperature sensor is used for sensing the water temperature in real time.

The water storage device 100 is provided with a water inlet and a plurality of water outlets, the water inlet is provided with a water inlet pipe 120, and the water inlet pipe 120 can be communicated with a river near the field, so that water can be supplemented through the water inlet pipe when the water stored in the water storage device 100 is insufficient.

Be equipped with a delivery pipe 200 on every delivery port, every delivery pipe 200 corresponds the cooperation with a field of treating the irrigation, is equipped with the structure of drawing water on every delivery pipe 200, and the structure during operation that draws water, delivery pipe 200 can supply water to the field that corresponds, realizes irrigating.

The water pumping structure is an existing structure and specifically comprises a water pump, a motor 210, a control valve 220 and a pressure sensor, wherein the motor 210 is connected with the water pump in a driving mode and drives the water pump to work so as to pump water in the water storage device 100, the control valve 220 is used for controlling the opening and closing of the water supply pipe 200, and the pressure sensor is used for sensing the pressure in the water supply pipe 200 in real time.

The controller 300 is a conventional structure, and may be a central processing unit, which is connected to the first liquid level meter 110, the heating device, the water temperature sensor, the motor 210 and the control valve 220, respectively.

The first liquid level meter 110 sends the water level information in the water storage device 100 measured in real time to the controller 300, so as to realize the understanding of the water storage amount in the water storage device 100, for example, when the water stored in the water storage device 100 is not much, the controller 300 can supplement water by opening the water inlet pipe.

The controller 300 heats the water source in the water storage device 100 by controlling the heating device to operate, and the water temperature sensor may transmit the sensed water temperature information in the water storage device 100 to the controller 300, so that the controller 300 may control the water temperature in the water storage device 100.

The frequency converter 400 is connected with the controller 300, a PID regulator is arranged in the frequency converter 400, the PID regulator is connected with the pressure sensor in each water supply pipe 200, the pressure sensor can send sensed water pressure information to the frequency converter 400, the frequency converter 400 can compare the received pressure value with a preset standard value, the comparison result is sent to the controller 300 through the frequency converter 400, and the controller 300 correspondingly controls the power of the motor 210 according to the comparison result, so that the real-time regulation of the water pressure when the water supply pipes 200 supply water is realized.

The alarm device 510, which is specifically an audible and visual alarm, is connected to the controller 300, and when the water level in the water storage device 100 is too low or the water pressure of the water supply pipe is too high, the controller 300 can control the alarm device 510 to alarm in time, so that the worker can know the alarm in time.

The display 520 is connected with the controller 300 and specifically located in a background operation room of a worker, and each data and control data received by the controller 300 can be displayed in real time through the display 520, so that the worker can observe and perform corresponding operations in time.

The control switch 530, which is a portable remote switch, is connected to the controller 300, and can be carried by a worker, thereby facilitating real-time operation.

And a communication module 540 connected with the controller 300, through which the controller 300 can be communicatively connected with other devices.

Communication module 540 specifically can be GPS module or WIFI module, and operating personnel accessible cell-phone or APP are connected with controller 300 to realize remote control and accept data, if alarm information can in time send to the operating personnel cell-phone, controller 300 can directly send received data and control information to user's cell-phone, and is very convenient.

In addition, this application still includes cloud ware, the controller is uploaded received data and control information through communication module and is stored in the cloud ware, the later stage of being convenient for is transferred and is examined.

The field that supplies water at every delivery pipe 200 is equipped with a second level gauge, and the second level gauge is connected with controller 300, and the water level in this field can be responded to in real time to the second level gauge to send water level information for the controller, the controller is according to received water level information, corresponds control to delivery pipe 200, thereby realizes the control of field water level.

The correspondence of the water level information of the second liquid level meter can also be performed through a PID regulator in the frequency converter 400, and the controller controls the control valve 220 on the water supply pipe 200 according to the comparison result, so that the field water level is controlled.

Thus, by implementing the above system, the water level of the supplied water, the water pressure at the time of water supply, and the water temperature of the supplied water in each field can be precisely controlled, and crops in the field can be optimally grown.

In addition, because the types of crops in each field are different, the required water temperature is different, a temperature sensor can be arranged on each field, the temperature sensor is connected with the controller 300, the water storage device 100 is arranged into a plurality of independent cavities, each cavity is correspondingly connected with one water supply pipe 200, a heating device and a temperature sensor are arranged in each cavity, the controller 300 correspondingly controls the water temperature in each cavity according to the water temperature sensed by the temperature sensor in each field, and therefore the water temperature of the water supplied to each field is accurately controlled.

Furthermore, because, this system includes the consumer, and at field during operation, it is inconvenient to use electricity, this application still includes a plurality of solar cell panel, accumulate equipment and electric energy converter, electric energy converter is connected with each solar cell panel, accumulate equipment is connected with electric energy converter, electric energy converter can convert light energy into electric energy, and supply each consumer power with partly electric energy direct supply, and carry another part electric energy to and save for accumulate equipment, when meetting overcast and rainy day like this, accumulate equipment can supply power for each consumer, guarantee that this system can real-time operation.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides an efficient accurate field water supply system which characterized in that, field water supply system includes:

the water storage device is internally provided with a first liquid level meter, a heating device and a water temperature sensor;

the water supply pipes are communicated with the water storage device, each water supply pipe is provided with a water pumping structure, and water in the water storage device can be pumped out by the water pumping structure to supply water to the corresponding field;

the controller is connected with the first liquid level meter, the heating device, the water temperature sensor and the water pumping structure;

the frequency converter is internally provided with a PID regulator and is connected with the controller and the water pumping structure;

the alarm device is connected with the controller;

the display is connected with the controller;

the control switch is connected with the controller;

the communication module is connected with the controller;

a plurality of second level gauge, every field that needs to supply water is equipped with a second level gauge, the second level gauge is connected with the controller.

2. An efficient and accurate field water supply system according to claim 1, wherein the water pumping structure comprises a water pump, a motor, a control valve and a pressure sensor, the motor is in driving connection with the water pump, the controller is connected with the motor and the control valve, and the pressure sensor is connected with a frequency converter.

3. An efficient and accurate field water supply system according to claim 1 and wherein said alarm means is an audible and visual alarm.

4. An efficient and accurate field water supply system according to claim 1 and wherein said communication module is a GPS module or a WIFI module.

5. An efficient and accurate field water supply system according to claim 1 and further comprising a cloud server, wherein said controller uploads received data and control information to said cloud server via said communication module.

6. An efficient and accurate field water supply system according to claim 1 and wherein said controller sends received data and control information directly to the user's handset through the communication module.

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