CN218604241U - Accurate positioning type facility vegetable drip irrigation test implementation device - Google Patents

Abstract

The utility model relates to a drip irrigation test implementation device for precision positioning type facility vegetables, which comprises a material storage bin, a material dissolving tank, a stirring device, a flow electromagnetic valve, a water delivery pipeline and a drip irrigation belt unit; the material storage bin can be used for storing different test materials and can be controlled by a controller for automatic feeding; the material dissolving tank is communicated with an external water source, and the external water source is provided with a flow electromagnetic valve which can quantitatively supply water to the water storage tank; the stirrer is positioned in the material dissolving tank and is used for stirring and dissolving the materials; the material dissolving tank is externally connected with a water pump and used for pumping the material dissolving liquid in the water storage tank to a water conveying pipeline, and the flow is controlled by a flow electromagnetic valve; the water pipeline is communicated with different drip irrigation units, and each drip irrigation unit is controlled by a flow electromagnetic valve. Above-mentioned equipment can realize that facility vegetables carry out accurate location type and drip irrigation experimental for the screening is the best and is driped irrigation and use the material, and the screening is at the best quantity of the same material, increases experimental precision, reduces artifical input, improves test efficiency.

Description

Accurate positioning type facility vegetable drip irrigation test implementation device

Technical Field

The utility model relates to an agricultural planting technical field especially involves an accurate location type facility vegetables and drips irrigation experimental implementation device.

Background

The facility agriculture is an important mark of modern agriculture, wherein facility vegetables can ensure the annual supply of the vegetables, and the influence of natural climate is effectively eliminated or reduced, so that the annual balanced production supply level of the vegetables is greatly improved, the weak season is realized, the seasonal price difference is obviously reduced, and the increasing demand of the off-season vegetables in the market is met. The facility vegetables are usually treated by drip irrigation for fertilizer, water and medicine because the cultivation management environment is different from that of the conventional field management, and the use amount and the use effect of novel agricultural input products are verified when the novel agricultural input products are popularized and applied.

Traditional facility vegetables drip irrigation zone is irrigated by high-power water pump, the agricultural input article of driping irrigation use often whole canopy or half canopy unified irrigation, novel product is difficult to carry out the accurate location test of district formula under same management environment, conventional agricultural input article test method irrigates alone for dividing regional manual work alone after dissolving alone, but this test method is difficult to simulate and drips irrigation the use scene, and the manual work of dissolving irrigation drops into greatly, and is inefficient, is difficult to obtain accurate test data. Therefore, the development of a precision positioning type drip irrigation test implementation device for greenhouse vegetables is a problem accumulated and solved in the field.

Disclosure of Invention

The utility model discloses to prior art's not enough, provide an experimental implementation device is driped irrigation to accurate location type facility vegetables, not only practiced thrift the personnel selection cost, improved the accuracy of test data moreover.

The utility model is realized by the following technical scheme, the utility model provides a precision positioning type facility vegetable drip irrigation test implementation device, which comprises a material dissolving tank communicated with a water input pipe and a water output pipe, and a plurality of material storage bins positioned above the material dissolving tank, wherein discharge ports of the material storage bins are respectively communicated with the material dissolving tank through blanking pipes, and each blanking pipe is provided with a feeding electromagnetic valve; the utility model discloses a drip irrigation system, including water delivery outlet pipe, water delivery inlet pipe, water delivery outlet pipe, water pump, drip irrigation zone unit, branch road water pipe, water delivery inlet pipe is last to install first flow solenoid valve, install second flow solenoid valve and the water pump that is located second flow solenoid valve downstream side on the water delivery outlet pipe, the water pump downstream side is equipped with a plurality of branch road water pipes that arrange in proper order along water delivery outlet pipe length direction and communicate with the water delivery outlet pipe respectively, is equipped with the reposition of redundant personnel solenoid valve of installing on the water delivery outlet pipe between two adjacent branch road water pipes, the one end intercommunication that the water delivery outlet pipe was kept away from to the branch road water pipe has the drip irrigation zone unit, installs the branch road solenoid valve on the branch road water pipe.

The implementation device of this scheme is when using, through opening respectively of control feeding solenoid valve, prepares different drip irrigation liquid, through the on-off state control to each reposition of redundant personnel solenoid valve and branch road solenoid valve, makes different drip irrigation liquid flow to different drip irrigation zone units respectively, through using the flow solenoid valve, is convenient for according to the break-make of liquid flow control valve body, has improved the accuracy of data.

As optimization, a stirring device is arranged in the material dissolving tank. This optimization scheme has improved the dissolving speed of material in the pond through set up agitating unit in the material dissolves the pond to be convenient for improve test efficiency.

As optimization, the device further comprises a controller, and the controller is electrically connected with the feeding electromagnetic valve, the first flow electromagnetic valve, the second flow electromagnetic valve, the water pump, the shunt electromagnetic valve, the stirring device and the branch electromagnetic valve. This optimization scheme controls each solenoid valve, water pump and agitating unit's action through setting up the controller, has further improved the accuracy and the test efficiency of data.

As optimization, the branch water pipe is four, the material storage bin is four arranged along the horizontal direction in proper order, and the discharge port of each material storage bin is arranged on the bottom surface of the bin body. The setting of this optimization scheme has satisfied the experimental requirement of the effect of driping irrigation to four kinds of different material solutions, has satisfied the experimental requirement of most majority.

The utility model has the advantages that: through the control to the feeding solenoid valve, realize the preparation of multiple material solution to supply the drip irrigation liquid to different drip irrigation zone units respectively correspondingly, realized irrigating respectively to the demarcation region, improved the accuracy of test data.

Drawings

FIG. 1 is a schematic view of the flow principle of the present invention;

shown in the figure:

1. the device comprises a water conveying inlet pipe, 2, a first flow electromagnetic valve, 3, a material storage bin, 4, a blanking pipe, 5, a branch electromagnetic valve, 6, a feeding electromagnetic valve, 7, a water conveying outlet pipe, 8, a water pump, 9, a second flow electromagnetic valve, 10, a material dissolving tank, 11, a stirring device, 12, a shunt electromagnetic valve, 13, a branch water pipe, 14 and a drip irrigation tape unit.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

As shown in fig. 1, a device for implementing drip irrigation test of facility vegetables in accurate positioning type, including material dissolving tank 10 that the intercommunication has water delivery to advance pipe 1 and water delivery exit tube 7, and be located a plurality of material storage storehouse 3 of material dissolving tank top, the material storage storehouse of this embodiment is four along transversely arranging in proper order, the discharge gate of each material storage storehouse all sets up the bottom surface at the storehouse body, and the discharge gate of material storage storehouse is respectively through blanking pipe 4 and material dissolving tank intercommunication, each feeding solenoid valve 6 is all installed on blanking pipe 4, when feeding solenoid valve opened, the material in the material storage storehouse falls to material dissolving tank 10 in through the blanking pipe.

In order to improve the material dissolution speed in the material dissolution tank, the stirring device 11 is installed in the material dissolution tank, and the materials are dissolved more quickly by stirring and mixing the materials through the stirring device. The stirring device adopts the prior art can, it is rotatory to drive the (mixing) shaft through agitator motor, installs the rabbling arm on the (mixing) shaft, stirs the liquid in the material dissolving tank.

The water delivery advances pipe 1 and keeps away from the one end intercommunication water supply installation in material dissolving tank, and advances to install first flow solenoid valve 2 on pipe 1 at the water delivery, and when first flow solenoid valve was opened, water supply installation's rivers dissolve the pond to the material in, first flow solenoid valve measures the flow of water simultaneously.

Install second flow solenoid valve 9 on the delivery pipe and be located the water pump 8 of second flow solenoid valve downstream side, the water pump downstream side is equipped with a plurality of branch road water pipes 13 of arranging in proper order along delivery pipe length direction and communicating with the delivery pipe respectively, and the branch road water pipe of this embodiment is four, is equipped with the reposition of redundant personnel solenoid valve 12 of installing on the delivery pipe between two adjacent branch road water pipes, the one end intercommunication that the delivery pipe was kept away from to the branch road water pipe has drip irrigation zone unit 14, installs branch road solenoid valve 5 on the branch road water pipe, and each branch road solenoid valve is located respectively between delivery pipe and the drip irrigation zone unit that corresponds, and the drip irrigation zone unit adopts prior art.

Still include the controller, controller and feeding solenoid valve, first flow solenoid valve, second flow solenoid valve, a water pump, the reposition of redundant personnel solenoid valve, the equal electric connection of agitating unit and branch road solenoid valve, the feeding solenoid valve, first flow solenoid valve, second flow solenoid valve and branch road solenoid valve all are equipped with flow detection module, flowmeter and solenoid valve integral type structure among the prior art can be adopted, also can adopt the split type structure of flowmeter and solenoid valve of prior art, flow information passes to the controller, controller control feeding solenoid valve, first flow solenoid valve, the second flow solenoid valve, a water pump, the reposition of redundant personnel solenoid valve, the operating condition of agitating unit and branch road solenoid valve.

The experimental device of implementing of accurate location type facility vegetables drip irrigation of this embodiment stores the setting of storehouse and feeding solenoid valve through the material, can realize the storage of cutting apart of different materials or the different quantity of the same material, stores the storehouse with the material and sets up in material dissolving tank top, and the accessible control is stored storehouse bottom dog-house and is carried out the automation and throw the material. A stirring device is arranged in the material dissolving tank, so that the material can be quickly dissolved; the quantitative water supply and the quantitative water discharge of the material dissolving tank are realized through the arranged first flow electromagnetic valve and the second flow electromagnetic valve. Through the water pump that sets up, can follow the extraction in the material dissolving tank and dissolve liquid or water and get into delivery pipe. The water delivery outlet pipe is connected with different drip irrigation units for carrying out drip irrigation test treatment. The drip irrigation belt unit is provided with branch electromagnetic valves for accurately controlling the drip irrigation amount; a shunt electromagnetic valve is arranged at the water delivery far end of the drip irrigation belt unit; the first flow electromagnetic valve, the second flow electromagnetic valve, the water pump, the stirring device, the shunt electromagnetic valve and the branch electromagnetic valve are controlled interactively through the controller.

During the use, place each drip irrigation zone unit respectively in corresponding region, the branch road water pipe is first branch road water pipe, second branch road water pipe, third branch road water pipe and fourth branch road water pipe along the water delivery direction of water delivery exit tube in proper order, and the feeding solenoid valve on each blanking pipe is first feeding solenoid valve, second feeding solenoid valve, third feeding solenoid valve and fourth feeding solenoid valve from the left hand right side in proper order, and each material storage storehouse is first material storage storehouse, second material storage storehouse, third material storage storehouse and fourth material storage storehouse from the left hand right side in proper order. When drip irrigation test treatment is required, different materials are placed into a material storage bin, a controller starts a first flow electromagnetic valve and a first feeding electromagnetic valve below the first material storage bin, water is fed and fed into a material dissolving pool, a stirring device is started to work, material dissolution is carried out, after the flow reaches a set flow, the controller interactively controls the first flow electromagnetic valve to be closed, a second flow electromagnetic valve is opened, a water pump is started to pump material dissolving liquid to a water output pipe, a branch electromagnetic valve corresponding to a first drip irrigation belt unit is opened, and quantitative drip irrigation is started; when the flow reaches the requirement, the branch electromagnetic valve corresponding to the first drip irrigation belt unit is closed, the first flow electromagnetic valve and a second feeding electromagnetic valve below the second material storage bin are opened, and the water pump and the second flow electromagnetic valve are closed to dissolve the second material; after the flow reaches the set flow, the first flow electromagnetic valve is closed, the water pump, the second flow electromagnetic valve, the shunt electromagnetic valve between the second drip irrigation tape unit and the first drip irrigation tape unit are opened, the branch electromagnetic valve corresponding to the first drip irrigation tape unit is closed, the branch electromagnetic valve corresponding to the second drip irrigation tape unit is opened, quantitative drip irrigation of the second drip irrigation tape unit is carried out, and the like, and after all test treatment is finished, the controller controls all electrical equipment to be closed.

The device of this embodiment can realize that facility vegetables carry out accurate location type and drip irrigation experimental for the screening is the best for drip irrigation the material, the screening is at the best quantity of the same material, increases experimental precision, reduces artifical input, improves test efficiency.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Of course, the above description is not limited to the above examples, and technical features of the present invention that are not described in the present application may be implemented by or using the prior art, and are not described herein again; the above embodiments and drawings are only used for illustrating the technical solutions of the present invention and are not intended to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments, and those skilled in the art should understand that changes, modifications, additions or substitutions made by those skilled in the art within the spirit of the present invention should also belong to the protection scope of the claims of the present invention.

Claims (4)

1. The utility model provides an experimental implementation device of drip irrigation of accurate location type facility vegetables which characterized in that: the device comprises a material dissolving pool communicated with a water delivery inlet pipe and a water delivery outlet pipe, and a plurality of material storage bins positioned above the material dissolving pool, wherein discharge ports of the material storage bins are respectively communicated with the material dissolving pool through blanking pipes, and each blanking pipe is provided with a feeding electromagnetic valve;

the water inlet pipe is provided with a first flow electromagnetic valve, the water outlet pipe is provided with a second flow electromagnetic valve and a water pump positioned at the downstream side of the second flow electromagnetic valve, the downstream side of the water pump is provided with a plurality of branch water pipes which are sequentially arranged along the length direction of the water outlet pipe and are respectively communicated with the water outlet pipe, be equipped with the reposition of redundant personnel solenoid valve of installing on the water delivery exit tube between two adjacent branch water pipes, the branch water pipe is kept away from the one end intercommunication of water delivery exit tube and is had the drip irrigation zone unit, installs the branch solenoid valve on the branch water pipe.

2. The device for implementing the drip irrigation test for vegetables with accurately positioned facilities according to claim 1, wherein: and a stirring device is arranged in the material dissolving tank.

3. The precision positioning type greenhouse vegetable drip irrigation test implementation device as claimed in claim 2, wherein: the device further comprises a controller, and the controller is electrically connected with the feeding electromagnetic valve, the first flow electromagnetic valve, the second flow electromagnetic valve, the water pump, the shunt electromagnetic valve, the stirring device and the branch electromagnetic valve.

4. The device for implementing the drip irrigation test for vegetables with accurately positioned facilities according to claim 1, wherein: the branch water pipe is four, the material storage bin is four that arrange in proper order along transversely, and the discharge gate in each material storage bin all sets up the bottom surface at the storehouse body.

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