CN217336794U - Land for growing field crops irrigation equipment - Google Patents

Abstract

The embodiment of the application provides a field irrigation equipment, includes: a reservoir; the irrigation mechanism is communicated with the liquid outlet of the liquid storage container through a first conveying pipe so as to receive the liquid output by the liquid storage container and irrigate the field; wherein the first delivery pipe is provided with an electromagnetic valve; the liquid level sensor is used for generating a detection signal when the liquid level of the liquid reaches a preset position in the liquid storage container; the stirrer and the timer are both connected with the liquid level sensor, the stirrer is used for running when receiving the detection signal, and the timer is used for starting timing when receiving the detection signal and generating a timing end signal when reaching preset time; the electromagnetic valve is connected with the timer and is opened when receiving a timing end signal. The technical scheme of this application embodiment can ensure water-soluble liquid fertilizer and water homogeneous mixing, is favorable to promoting irrigation quality.

Description

Land for growing field crops irrigation equipment

Technical Field

The application relates to the technical field of agricultural irrigation, in particular to a field irrigation device.

Background

The field refers to a large field in which crops are planted. Due to the large area of the field, pipelines are usually laid in the field to irrigate plants in the field. However, the current field irrigation device is not always uniformly mixed with fertilizer and water, so that the irrigation quality is easily reduced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a field irrigation device, which aims to solve or alleviate one or more technical problems in the prior art.

As one aspect of embodiments of the present application, embodiments of the present application provide a field irrigation device, including:

the liquid storage container is provided with a first liquid inlet, a second liquid inlet and a liquid outlet, the first liquid inlet is used for inputting water-soluble liquid fertilizer, and the second liquid inlet is used for inputting water;

the irrigation mechanism is communicated with the liquid outlet of the liquid storage container through a first conveying pipe so as to receive the liquid output by the liquid storage container and irrigate the field; wherein the first delivery pipe is provided with an electromagnetic valve;

the liquid level sensor is used for generating a detection signal when the liquid level of the liquid reaches a preset position in the liquid storage container;

the stirrer and the timer are connected with the liquid level sensor, the stirrer is used for running when receiving the detection signal, and the timer is used for starting timing when receiving the detection signal and generating a timing end signal when reaching preset time;

the electromagnetic valve is connected with the timer, and the electromagnetic valve is opened when receiving a timing end signal.

In an embodiment, irrigate mechanism includes a plurality of second conveyer pipes, and a plurality of second conveyer pipes are arranged along the width direction interval in field, and the inlet of each second conveyer pipe communicates with the liquid outlet of first conveyer pipe respectively, and each second conveyer pipe is provided with a plurality of shunt tubes along the length direction interval, and the inlet of each shunt tube communicates with the second conveyer pipe that corresponds, and the liquid outlet of each shunt tube is provided with the shower nozzle respectively.

In one embodiment, the irrigation device further comprises:

the pressure sensors are respectively arranged on the second conveying pipes so as to detect pressure information corresponding to the second conveying pipes;

the controller is respectively connected with each pressure sensor to receive the pressure information detected by each pressure sensor;

the alarm is connected with the controller;

the controller is used for sending an operation instruction to the alarm when any received pressure information is smaller than a pressure threshold value, so that the alarm gives an alarm.

In one embodiment, the field irrigation device further comprises:

and the display screen is connected with the controller and is used for receiving and displaying the pressure information detected by each pressure sensor.

In one embodiment, the field irrigation device further comprises:

the booster pumps are respectively arranged on the second conveying pipes;

the plurality of booster pumps are respectively connected with the controller, and the controller is used for sending an operation instruction to each booster pump when receiving a timing end signal so as to enable each booster pump to operate.

In one embodiment, the field irrigation device further comprises:

and the delivery pump is arranged on the first delivery pipe, the delivery pump is connected with the controller, and the controller is used for sending an operation instruction to the delivery pump when receiving a timing end signal so as to enable the delivery pump to operate.

In one embodiment, a plurality of spray heads are arranged at intervals in the length direction of each second conveying pipe; and the spray heads on the adjacent second conveying pipes are arranged in a staggered manner in the length direction of the second conveying pipes.

In one embodiment, the second delivery tube is provided with a one-way valve adjacent the inlet.

In one embodiment, the first liquid inlet and the second liquid inlet are both opened on the top wall of the liquid storage container, and the liquid outlet is located on the bottom wall or the bottom of the side wall of the liquid storage container.

In one embodiment, the agitator comprises:

the driving part is positioned on the outer side of the top wall of the liquid storage container, a driving shaft of the driving part penetrates through the top wall, and the driving shaft is positioned between the first liquid inlet and the second liquid inlet;

the shaft lever is arranged inside the liquid storage container and is connected with the driving shaft;

and the fan blade is arranged at one end of the shaft lever far away from the driving part.

This application embodiment adopts above-mentioned technical scheme, liquid outlet and irrigation mechanism intercommunication with the stock solution container through first conveyer pipe, and when level sensor detected the liquid level of stock solution container and arrived preset position automatic trigger agitator operation and time-recorder timing, and make the solenoid valve open when the time-recorder timing finishes, make first conveyer pipe switch on, can ensure to input to the inside water-soluble liquid fertilizer of stock solution container and water and carry out the homogeneous mixing after, carry again to irrigate the mechanism and irrigate, be favorable to promoting irrigation quality.

The foregoing summary is provided for the purpose of description only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present application will be readily apparent by reference to the drawings and following detailed description.

Drawings

In the drawings, like reference numerals refer to the same or similar parts or elements throughout the several views unless otherwise specified. The figures are not necessarily to scale. It is appreciated that these drawings depict only some embodiments in accordance with the disclosure and are therefore not to be considered limiting of its scope.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 inventive exercise.

Fig. 1 shows a schematic view of a field irrigation device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Fig. 1 shows a schematic view of a field irrigation device according to an embodiment of the present application. As shown in fig. 1, the field irrigation device includes a liquid storage container 110, an irrigation mechanism 120, a liquid level sensor 210, an agitator 220, and a timer 230.

The liquid storage container 110 has a first liquid inlet 111, a second liquid inlet 112 and a liquid outlet 113, wherein the first liquid inlet 111 is used for inputting water-soluble liquid fertilizer, and the second liquid inlet 112 is used for inputting water. The water-soluble liquid fertilizer and the water can be simultaneously input into the liquid storage container 110 by setting the first liquid inlet 111 to input the water-soluble liquid fertilizer and setting the second liquid inlet 112 to input the water, so as to improve the input efficiency of the liquid, wherein the water-soluble liquid fertilizer and the water can be input into the liquid storage container 110 according to the preset capacity. It will be appreciated that the first inlet 111 may also be used to input water when only irrigation water is required to the field. This can increase the water input efficiency.

The irrigation mechanism 120 is connected to the reservoir 110 via a first delivery tube 130 to receive the liquid from the reservoir 110, so that the irrigation mechanism 120 can irrigate the field. The first delivery pipe 130 is provided with an electromagnetic valve 131, and the electromagnetic valve 131 is used for conducting or closing the first delivery pipe 130.

The level sensor 210 is used to generate a detection signal when the level of the liquid reaches a preset position inside the liquid storage container 110. For example, the liquid level inside the liquid storage container 110 can be gradually raised by inputting the water-soluble liquid fertilizer into the first liquid inlet 111 and the water into the second liquid inlet 112 of the liquid storage container 110, so that the liquid level sensor 210 generates a detection signal when the liquid level reaches a preset position, thereby realizing the liquid level detection.

The stirrer 220 and the timer 230 are both connected to the liquid level sensor 210, the stirrer 220 is configured to operate when receiving the detection signal, and the timer 230 is configured to start timing when receiving the detection signal and generate a timing end signal when reaching a preset time. For example, the level sensor 210 may be disposed in the middle of the receiving cavity of the reservoir 110 to ensure that a detection signal is generated when the level of the liquid reaches the middle of the receiving cavity, thereby automatically triggering the operation of the agitator 220 and the start of the timer 230. Therefore, the stirrer 220 can be automatically triggered to operate after the liquid storage container 110 stores a certain amount of liquid, so that the stirring efficiency can be improved, and the energy consumption can be saved. It should be noted that the dotted line section in fig. 1 shows the connection relationship of the electrical components in the field irrigation device.

The electromagnetic valve 131 is connected to the timer 230, so that the electromagnetic valve 131 is opened when receiving a timing end signal, and the liquid stored in the liquid storage container 110 is fully stirred and then uniformly mixed, and then is delivered to the irrigation mechanism 120.

According to field irrigation equipment of this application embodiment, the liquid outlet 113 with liquid storage container 110 and irrigation mechanism 120 intercommunication through first conveyer pipe 130, and when level sensor 210 detected that the liquid level of liquid storage container 110 reachd preset position automatic trigger agitator 220 operation and time of time-recorder 230, and make solenoid valve 131 open when time-recorder 230 timing finishes, make first conveyer pipe 130 switch on, can ensure to input to the inside water-soluble liquid fertilizer of liquid storage container 110 and water and carry out the homogeneous mixing after, carry again to irrigation mechanism 120 and irrigate, be favorable to promoting irrigation quality.

In one embodiment, the irrigation mechanism 120 includes a plurality of second delivery pipes 121, the plurality of irrigation pipes are arranged at intervals along the width direction of the field, liquid inlets of the second delivery pipes 121 are respectively communicated with the liquid outlets 113 of the first delivery pipe 130, a plurality of dividing pipes 122 are arranged at intervals along the length direction of each second delivery pipe 121, liquid inlets of the dividing pipes 122 are communicated with the corresponding second delivery pipes 121, and liquid outlets of the dividing pipes 122 are respectively provided with spray heads 123. Arrange along the width direction interval in the field through a plurality of second conveyer pipes 121 to set up a plurality of shunt tubes 122 and a plurality of shower nozzle 123 to each second conveyer pipe 121 interval, make the sprinkling irrigation scope of a plurality of shower nozzles 123 can cover the field region, thereby the liquid that each second conveyer pipe 121 carried can spray to the field through a plurality of shunt tubes 122 and a plurality of shower nozzle 123, realize the irrigation to the crop in the field, its irrigation efficiency is high.

In one embodiment, the irrigation device further includes a plurality of pressure sensors 240, a controller 250, and an alarm 260. Each pressure sensor 240 is disposed on each second delivery pipe 121 to detect pressure information corresponding to the second delivery pipe 121. The controller 250 is connected to each of the pressure sensors 240 to receive pressure information detected by each of the pressure sensors 240. An alarm 260 is connected to the controller 250, wherein the alarm 260 includes, but is not limited to, a buzzer, an audible and visual alarm, etc. The controller 250 is configured to send an operation instruction to the alarm 260 to make the alarm 260 alarm when any of the received pressure information is smaller than the pressure threshold.

According to the scheme, the pressure sensors 240 are respectively arranged on the second conveying pipes 121, the pressure sensors 240 are used for detecting the pressure information of the second conveying pipes 121, and the controller 250 is used for controlling the alarm 260 to give an alarm when any received pressure information is smaller than the pressure threshold value, so that the conveying abnormality of the second conveying pipes 121 can be prompted when the pressure of the second conveying pipes 121 is smaller than the pressure threshold value, and the maintenance can be carried out in time.

In one embodiment, the field irrigation device further comprises a display screen 270. The display screen 270 is connected to the controller 250 for receiving and displaying pressure information detected by each of the pressure sensors 240. In this way, it is convenient to view the pressure information of each second delivery pipe 121 in real time.

In one embodiment, the field irrigation apparatus further comprises a plurality of booster pumps 280. The booster pumps 280 are respectively provided in the second transfer pipes 121. Preferably, each booster pump 280 is disposed adjacent to the inlet of each second delivery pipe 121. The plurality of booster pumps 280 are connected to the controller 250, and the controller 250 is configured to send an operation command to each booster pump 280 to operate each booster pump 280 when receiving the timing end signal. By providing the booster pumps 280 to the second delivery pipes 121 and causing the controller 250 to send an operation command to the booster pumps 280 when receiving the timing end signal, the booster pumps 280 increase the kinetic energy and pressure of the liquid in the second delivery pipes 121, thereby ensuring a larger coverage when the liquid is ejected through the ejection heads 123 of the second delivery pipes 121.

In one embodiment, the field irrigation apparatus further comprises a delivery pump 132. The delivery pump 132 is disposed in the first delivery pipe 130, the delivery pump 132 is connected to the controller 250, and the controller 250 is configured to send an operation instruction to the delivery pump 132 to operate the delivery pump 132 when receiving the timing end signal. Thus, the liquid mixed uniformly in the liquid storage container 110 can be delivered to the second delivery pipe 121 through the first delivery pipe 130.

In one embodiment, a plurality of nozzles 123 are spaced apart along the length of each second delivery pipe 121; in the length direction of the second delivery pipe 121, the spray heads 123 of the adjacent second delivery pipes 121 are arranged in a staggered manner. Therefore, the orthographic projection of the sprinkling irrigation range of each spray head 123 of each second conveying pipe 121 in the vertical direction can effectively cover the orthographic projection of the field in the vertical direction, the coverage efficiency is improved, and the sprinkling irrigation efficiency is improved.

In one embodiment, the second delivery tube 121 is provided with a one-way valve 124 adjacent the inlet. By opening or closing the one-way valve 124, the area of the field needing irrigation can be flexibly selected, and the irrigation flexibility is improved.

In one embodiment, the first inlet port 111 and the second inlet port 112 are both open at a top wall of the reservoir 110, and the outlet port 113 is located at a bottom of a bottom wall or a side wall of the reservoir 110. It is understood that the first inlet 111, the second inlet 112 and the outlet 113 of the reservoir 110 can be selectively adjusted according to actual needs.

In one embodiment, the agitator 220 includes a drive portion 221, a shaft 222, and blades 223. The driving portion 221 is located outside the top wall of the liquid storage container 110, and a driving shaft (not shown) of the driving portion 221 penetrates through the top wall, and the driving shaft is located between the first liquid inlet 111 and the second liquid inlet 112. The shaft 222 is disposed inside the reservoir 110 and connected to the drive shaft. The fan 223 is disposed at an end of the shaft 222 away from the driving portion 221. The first liquid inlet 111 and the second liquid inlet 112 are opened on the top wall of the liquid storage container 110, and the stirrer 220 is installed on the top wall of the liquid storage container 110, which is beneficial to reducing the manufacturing cost.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A field irrigation device, comprising:

the liquid storage container is provided with a first liquid inlet, a second liquid inlet and a liquid outlet, the first liquid inlet is used for inputting water-soluble liquid fertilizer, and the second liquid inlet is used for inputting water;

the irrigation mechanism is communicated with the liquid outlet of the liquid storage container through a first conveying pipe so as to receive the liquid output by the liquid storage container and irrigate the field; the first conveying pipe is provided with an electromagnetic valve;

the liquid level sensor is used for generating a detection signal when the liquid level of the liquid reaches a preset position in the liquid storage container;

the stirrer and the timer are both connected with the liquid level sensor, the stirrer is used for running when receiving the detection signal, and the timer is used for starting timing when receiving the detection signal and generating a timing end signal when reaching preset time;

the electromagnetic valve is connected with the timer, and the electromagnetic valve is opened when receiving the timing end signal.

2. The field irrigation device according to claim 1, wherein the irrigation mechanism comprises a plurality of second delivery pipes, the second delivery pipes are arranged at intervals along the width direction of the field, a liquid inlet of each second delivery pipe is respectively communicated with a liquid outlet of the first delivery pipe, a plurality of dividing pipes are arranged at intervals along the length direction of each second delivery pipe, a liquid inlet of each dividing pipe is communicated with the corresponding second delivery pipe, and a spray head is respectively arranged at a liquid outlet of each dividing pipe.

3. The field irrigation device of claim 2 further comprising:

the pressure sensors are respectively arranged on the second conveying pipes so as to detect pressure information corresponding to the second conveying pipes;

the controller is respectively connected with the pressure sensors to receive pressure information detected by the pressure sensors;

the alarm is connected with the controller;

the controller is used for sending an operation instruction to the alarm when any received pressure information is smaller than a pressure threshold value, so that the alarm gives an alarm.

4. The field irrigation device as recited in claim 3 further comprising:

and the display screen is connected with the controller and used for receiving and displaying the pressure information detected by each pressure sensor.

5. The field irrigation device as recited in claim 3 further comprising:

a plurality of booster pumps, each of which is respectively arranged on each of the second delivery pipes;

the plurality of booster pumps are respectively connected with the controller, and the controller is used for sending an operation instruction to each booster pump when receiving the timing end signal so as to enable each booster pump to operate.

6. The field irrigation device as recited in claim 3, further comprising:

the delivery pump, set up in first conveyer pipe, the delivery pump with the controller is connected, the controller is used for receiving when timing end signal, to the delivery pump sends the operation instruction, so that the delivery pump operation.

7. The field irrigation apparatus as claimed in claim 2, wherein a plurality of said spray heads are arranged at intervals in a length direction of each of said second delivery pipes; and the spray heads on the adjacent second conveying pipes are arranged in a staggered manner in the length direction of the second conveying pipes.

8. The field irrigation apparatus as claimed in claim 2 wherein the second delivery pipe is provided with a one-way valve adjacent the inlet.

9. The field irrigation device according to claim 1, wherein the first liquid inlet and the second liquid inlet are both opened on a top wall of the liquid storage container, and the liquid outlet is positioned on a bottom wall or a bottom wall of a side wall of the liquid storage container.

10. The field irrigation device as claimed in claim 9 wherein the agitator comprises:

the driving part is positioned on the outer side of the top wall of the liquid storage container, a driving shaft of the driving part penetrates through the top wall, and the driving shaft is positioned between the first liquid inlet and the second liquid inlet;

the shaft rod is arranged inside the liquid storage container and is connected with the driving shaft;

and the fan blade is arranged at one end of the shaft lever far away from the driving part.

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