CN215379890U - Shunt for orchard high-pressure water fertilizer and pesticide sprinkling irrigation system - Google Patents

Abstract

The utility model discloses a flow divider for an orchard high-pressure water-fertilizer-pesticide sprinkling irrigation system, which solves the technical problem of low water-fertilizer-pesticide sprinkling irrigation efficiency in the prior art. The utility model comprises a gas pipeline, a liquid pipeline and a plurality of communicating mechanisms connected between the gas pipeline and the liquid pipeline; the communicating mechanism comprises a third connecting pipe, a first connecting pipe communicated between the third connecting pipe and the gas pipeline, and a second connecting pipe communicated between the third connecting pipe and the liquid pipeline. The water-fertilizer spraying device is simple in structure, scientific and reasonable in design and convenient to use, and can effectively improve the water-fertilizer spraying efficiency in the large-scale economic crop planting process.

Description

Shunt for orchard high-pressure water fertilizer and pesticide sprinkling irrigation system

Technical Field

The utility model belongs to the technical field of agricultural mechanical equipment, and particularly relates to a flow divider for an orchard high-pressure water fertilizer pesticide sprinkling irrigation system.

Background

In hilly areas, farmers or special societies plant economic crops such as fruit trees on mountains in all mountains and all over the country, and in the planting process of the fruit trees, in order to improve the yield of the economic crops such as the fruit trees and avoid damage of plant diseases and insect pests, reasonable water-fertilizer-pesticide management needs to be carried out. With the increase of the planting area of fruit trees, the traditional water-fertilizer-pesticide management mode of manual spraying cannot meet the requirement of large-scale economic crop planting.

Therefore, the design of a flow divider for an orchard high-pressure water-fertilizer-pesticide sprinkling irrigation system is to improve the water-fertilizer spraying efficiency in the process of planting large-scale economic crops, and the technical problem to be solved by technical personnel in the technical field is urgently needed.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: provides a flow divider for an orchard high-pressure water fertilizer and pesticide sprinkling irrigation system, which at least solves part of technical problems.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

a flow divider for an orchard high-pressure water fertilizer and pesticide sprinkling irrigation system comprises a gas path pipeline, a liquid path pipeline and a plurality of communication mechanisms connected between the gas path pipeline and the liquid path pipeline; the communicating mechanism comprises a third connecting pipe, a first connecting pipe communicated between the third connecting pipe and the gas pipeline, and a second connecting pipe communicated between the third connecting pipe and the liquid pipeline.

Furthermore, a third valve and a fourth valve are respectively arranged at two ends of the gas pipeline, and the joint between the third connecting pipe and the gas pipeline is positioned between the third valve and the fourth valve.

Furthermore, a fifth valve and a sixth valve are respectively arranged at two ends of the liquid pipeline, and the joint between the third connecting pipe and the liquid pipeline is positioned between the fifth valve and the sixth valve.

Further, the outlet end of the third connecting pipe is connected with a high-pressure internal thread joint.

Furthermore, a first valve is arranged on the first connecting pipe.

Furthermore, a second valve is arranged on the second connecting pipe.

Further, the third connecting pipe is communicated with the first connecting pipe and the second connecting pipe through a tee joint respectively.

Furthermore, two ends of the gas path pipeline are respectively connected with a gas source mechanism and a gas-liquid constant pressure mechanism in the orchard high-pressure water fertilizer spray irrigation system.

Furthermore, two ends of the liquid pipeline are respectively connected with a water-fertilizer-pesticide conveying mechanism and an air-liquid constant pressure mechanism in the high-pressure water-fertilizer-pesticide sprinkling irrigation system of the orchard.

Further, the third connecting pipe is connected with a water-fertilizer-pesticide sprinkling irrigation mechanism.

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

the water-fertilizer spraying device is simple in structure, scientific and reasonable in design and convenient to use, and can effectively improve the water-fertilizer spraying efficiency in the large-scale economic crop planting process.

The orchard high-pressure water and fertilizer sprinkling irrigation system mainly comprises a gas path pipeline, a liquid path pipeline and a communicating mechanism, wherein the communicating mechanism comprises a third connecting pipe, a first connecting pipe and a second connecting pipe, two ends of the gas path pipeline are respectively connected with a gas source mechanism and a gas-liquid constant pressure mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system, the gas source mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system is preferably an air compressor, the gas-liquid constant pressure mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system is preferably a gas-liquid constant pressure tank, the gas path pipeline is in gas phase connection with the gas-liquid constant pressure tank, the liquid path pipeline is connected with a water and fertilizer conveying mechanism and the gas-liquid constant pressure mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system, one end of the liquid path pipeline is connected with a plunger pump which is used for enabling water and fertilizer liquid to generate high pressure in the water and fertilizer conveying mechanism, and the other end of the liquid path pipeline is in liquid connection with the gas-liquid constant pressure tank. Thus, the air compressor is communicated with the gas phase of the gas-liquid constant pressure tank through a gas pipeline, the outlet of the plunger pump is communicated with the liquid phase of the gas-liquid constant pressure tank through a liquid pipeline, the third valve controls the opening and closing between the air compressor and the gas pipeline, the fourth valve controls the opening and closing between the gas phase of the gas-liquid constant pressure tank and the gas pipeline, the fifth valve controls the opening and closing between the outlet of the plunger pump and the liquid pipeline, the sixth valve controls the opening and closing between the liquid phase of the gas-liquid constant pressure tank and the liquid pipeline, the communicating mechanism is connected between the gas pipeline and the liquid pipeline, the communicating mechanisms are provided with a plurality of communicating mechanisms which are distributed in parallel at equal intervals, the connecting ends of the communicating mechanisms and the gas pipeline are positioned between the third valve and the fourth valve, the connecting end of the communicating mechanism and the liquid pipeline is positioned between the fifth valve and the sixth valve, the communicating mechanism is mainly used for communicating the gas pipeline, the liquid pipeline and the water-fertilizer sprinkling mechanism, and the first valve controls the opening and closing between the gas pipeline and the third connecting pipe, the second valve controls the opening and closing between the liquid pipeline and the third connecting pipe, and a communicating mechanism can be responsible for a liquid manure medicine sprinkling irrigation mechanism to spray irrigation operation to the crop, and several liquid manure medicine sprinkling irrigation mechanism can move sprinkling irrigation operation simultaneously, and is spray irrigation efficient to open corresponding valve and can control corresponding pipeline intercommunication and carry out liquid manure medicine sprinkling irrigation during the use, it is very convenient to use.

Two ends of a gas pipeline of the utility model are respectively connected with an air compressor and a gas-liquid constant pressure mechanism in the orchard high-pressure water fertilizer spray irrigation system in a gas phase manner, and a liquid pipeline is connected with an outlet of a plunger pump and the gas-liquid constant pressure mechanism in the orchard high-pressure water fertilizer spray irrigation system in a liquid phase manner. So, the air compressor machine can directly be the gaseous phase energy storage of gas-liquid constant voltage mechanism through the gas circuit pipeline, gas-liquid constant voltage mechanism liquid phase also can directly be for liquid manure medicine sprinkling irrigation mechanism compensation hydraulic pressure through the liquid circuit pipeline, before the operation, close first valve, open fourth valve and fifth valve, the air compressor machine passes through the gas circuit pipeline and is the gaseous phase energy storage of gas-liquid constant voltage mechanism, close corresponding valve after the energy storage finishes, open fifth valve, sixth valve and second valve door, the plunger pump starts the infusion, the liquid manure liquid medicine loops through the liquid circuit pipeline, the second connecting pipe, it carries out the sprinkling irrigation operation to the crop to enter liquid manure medicine sprinkling irrigation mechanism behind the third connecting pipe, smooth high efficiency of whole in-process flow. When the sprinkling irrigation is finished, the fifth valve and the sixth valve are closed, the third valve and the first valve are opened, the air compressor in the high-pressure water fertilizer pesticide sprinkling irrigation system of the orchard is started simultaneously, the air compressor is operated to blow out residual liquid in the third connecting pipe and the water fertilizer pesticide sprinkling irrigation mechanism, no residue is left in the pipe, and the utilization rate of the water fertilizer pesticide is also improved.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic view of the communication mechanism of the utility model.

Fig. 3 is a schematic diagram of the high-pressure water fertilizer and pesticide sprinkling irrigation system for the orchard.

Wherein, the names corresponding to the reference numbers are:

the device comprises a gas path pipeline 1, a liquid path pipeline 2, a third connecting pipe 3, a first connecting pipe 4, a second connecting pipe 5, a first valve 6, a second valve 7, a third valve 8, a fourth valve 9, a fifth valve 10, a sixth valve 11, a high-pressure internal thread joint 12, an air source mechanism 13, a gas-liquid constant pressure mechanism 14, a water-fertilizer-pesticide conveying mechanism 15, a water-fertilizer-pesticide sprinkling mechanism 16 and a tee joint 17.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and thus, it should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; of course, mechanical connection and electrical connection are also possible; alternatively, they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in the figures 1-3, the flow divider for the orchard high-pressure water-fertilizer-pesticide spray irrigation system is simple in structure, scientific and reasonable in design and convenient to use, and can effectively improve the water-fertilizer spraying efficiency in the large-scale economic crop planting process. The utility model comprises a gas pipeline 1, a liquid pipeline 2 and a plurality of communicating mechanisms connected between the gas pipeline 1 and the liquid pipeline 2; the communicating mechanism comprises a third connecting pipe 3, a first connecting pipe 4 communicated between the third connecting pipe 3 and the gas pipeline 1, and a second connecting pipe 5 communicated between the third connecting pipe 3 and the liquid pipeline 2.

The two ends of the gas pipeline 1 are respectively provided with a third valve 8 and a fourth valve 9, and the connection position between the third connecting pipe 3 and the gas pipeline 1 is positioned between the third valve 8 and the fourth valve 9. The two ends of the liquid pipeline 2 are respectively provided with a fifth valve 10 and a sixth valve 11, and the joint between the third connecting pipe 3 and the liquid pipeline 2 is positioned between the fifth valve 10 and the sixth valve 11.

The outlet end of the third connecting pipe 3 of the utility model is connected with a high-pressure internal thread joint 12. The third connecting pipe 3 is communicated with the first connecting pipe 4 and the second connecting pipe 5 through a tee 17. The first connecting pipe 4 is provided with a first valve 6. The second connecting pipe 5 is provided with a second valve 7.

Two ends of the gas circuit pipeline 1 are respectively connected with a gas source mechanism 13 and a gas-liquid constant pressure mechanism 14 in the high-pressure water fertilizer and pesticide spray irrigation system of the orchard. Two ends of the liquid pipeline 2 are respectively connected with a water fertilizer and pesticide conveying mechanism 15 and an air-liquid constant pressure mechanism 14 in the high-pressure water fertilizer and pesticide sprinkling irrigation system of the orchard. The third connecting pipe 3 is connected with a water-fertilizer-pesticide sprinkling irrigation mechanism 16.

The orchard high-pressure water and fertilizer sprinkling irrigation system mainly comprises a gas path pipeline, a liquid path pipeline and a communicating mechanism, wherein the communicating mechanism comprises a third connecting pipe, a first connecting pipe and a second connecting pipe, two ends of the gas path pipeline are respectively connected with a gas source mechanism and a gas-liquid constant pressure mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system, the gas source mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system is preferably an air compressor, the gas-liquid constant pressure mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system is preferably a gas-liquid constant pressure tank, the gas path pipeline is in gas phase connection with the gas-liquid constant pressure tank, the liquid path pipeline is connected with a water and fertilizer conveying mechanism and the gas-liquid constant pressure mechanism in the orchard high-pressure water and fertilizer sprinkling irrigation system, one end of the liquid path pipeline is connected with a plunger pump which is used for enabling water and fertilizer liquid to generate high pressure in the water and fertilizer conveying mechanism, and the other end of the liquid path pipeline is in liquid connection with the gas-liquid constant pressure tank. Thus, the air compressor is communicated with the gas phase of the gas-liquid constant pressure tank through a gas pipeline, the outlet of the plunger pump is communicated with the liquid phase of the gas-liquid constant pressure tank through a liquid pipeline, the third valve controls the opening and closing between the air compressor and the gas pipeline, the fourth valve controls the opening and closing between the gas phase of the gas-liquid constant pressure tank and the gas pipeline, the fifth valve controls the opening and closing between the outlet of the plunger pump and the liquid pipeline, the sixth valve controls the opening and closing between the liquid phase of the gas-liquid constant pressure tank and the liquid pipeline, the communicating mechanism is connected between the gas pipeline and the liquid pipeline, the communicating mechanisms are provided with a plurality of communicating mechanisms which are distributed in parallel at equal intervals, the connecting ends of the communicating mechanisms and the gas pipeline are positioned between the third valve and the fourth valve, the connecting end of the communicating mechanism and the liquid pipeline is positioned between the fifth valve and the sixth valve, the communicating mechanism is mainly used for communicating the gas pipeline, the liquid pipeline and the water-fertilizer sprinkling mechanism, and the first valve controls the opening and closing between the gas pipeline and the third connecting pipe, the second valve controls the opening and closing between the liquid pipeline and the third connecting pipe, and a communicating mechanism can be responsible for a liquid manure medicine sprinkling irrigation mechanism to spray irrigation operation to the crop, and several liquid manure medicine sprinkling irrigation mechanism can move sprinkling irrigation operation simultaneously, and is spray irrigation efficient to open corresponding valve and can control corresponding pipeline intercommunication and carry out liquid manure medicine sprinkling irrigation during the use, it is very convenient to use.

Two ends of a gas pipeline of the utility model are respectively connected with an air compressor and a gas-liquid constant pressure mechanism in the orchard high-pressure water fertilizer spray irrigation system in a gas phase manner, and a liquid pipeline is connected with an outlet of a plunger pump and the gas-liquid constant pressure mechanism in the orchard high-pressure water fertilizer spray irrigation system in a liquid phase manner. So, the air compressor machine can directly be the gaseous phase energy storage of gas-liquid constant voltage mechanism through the gas circuit pipeline, gas-liquid constant voltage mechanism liquid phase also can directly be for liquid manure medicine sprinkling irrigation mechanism compensation hydraulic pressure through the liquid circuit pipeline, before the operation, close first valve, open fourth valve and fifth valve, the air compressor machine passes through the gas circuit pipeline and is the gaseous phase energy storage of gas-liquid constant voltage mechanism, close corresponding valve after the energy storage finishes, open fifth valve, sixth valve and second valve door, the plunger pump starts the infusion, the liquid manure liquid medicine loops through the liquid circuit pipeline, the second connecting pipe, it carries out the sprinkling irrigation operation to the crop to enter liquid manure medicine sprinkling irrigation mechanism behind the third connecting pipe, smooth high efficiency of whole in-process flow. When the sprinkling irrigation is finished, the fifth valve and the sixth valve are closed, the third valve and the first valve are opened, the air compressor in the high-pressure water fertilizer pesticide sprinkling irrigation system of the orchard is started simultaneously, the air compressor is operated to blow out residual liquid in the third connecting pipe and the water fertilizer pesticide sprinkling irrigation mechanism, no residue is left in the pipe, and the utilization rate of the water fertilizer pesticide is also improved.

The plunger pump, the air compressor and the gas-liquid constant pressure tank used in the high-pressure water fertilizer and pesticide sprinkling irrigation system for the orchard are all existing known equipment and can be directly purchased and used in the market, and the structures, circuits and control principles of the plunger pump, the air compressor and the gas-liquid constant pressure tank are all existing known technologies, so the structures, circuits and control principles of the plunger pump, the air compressor and the gas-liquid constant pressure tank are not repeated herein.

The orchard high-pressure water fertilizer and pesticide sprinkling irrigation system comprises a pesticide dispensing pool 81, a plunger pump 83 connected out of the pesticide dispensing pool 81 through a first pipeline 82, a flow divider connected out of the plunger pump 83 through a second pipeline 84, a water fertilizer and pesticide sprinkling irrigation mechanism for sprinkling irrigation of water fertilizer and pesticide in a forest garden, and a PLC (programmable logic controller) 817; the first pipeline 82 is provided with a filtering mechanism, the flow divider is connected with an air compressor 815 and a gas-liquid constant pressure tank 816, the first pipeline 82 is provided with a booster pump 86, the second pipeline 84 is provided with a pressure sensor 818 and a flow meter 819, and the PLC control cabinet 817 is respectively connected with the plunger pump 83, the air compressor 815, the booster pump 86, the pressure sensor 818 and the flow meter 819. The filter means comprises a centrifugal filter 87 and a laminated filter 88 arranged in series along the flow direction of the first conduit 82, and a booster pump 86 is located between the centrifugal filter 87 and the dispensing basin 81. The first pipe 82 is provided with a gate valve 89, and the gate valve 89 is positioned between the booster pump 86 and the dispensing tank 81. The water fertilizer and pesticide sprinkling irrigation mechanism comprises a high-pressure PE pipe 810 connected out of the flow divider, a high-pressure hose 811 connected to the high-pressure PE pipe 810, and a fertilizing gun 812 or a spraying gun 813 connected to the high-pressure hose 811. The high-pressure PE pipe 810 and the high-pressure hose 811, and the high-pressure hose 811 and the fertilizing gun 812 or the spraying gun 813 are connected by a high-pressure internal thread joint 814.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention to illustrate the technical solutions of the present invention, but not to limit the technical solutions, and certainly not to limit the patent scope of the present invention; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention; that is, the technical problems to be solved by the present invention, which are not substantially changed or supplemented by the spirit and the concept of the main body of the present invention, are still consistent with the present invention and shall be included in the scope of the present invention; in addition, the technical scheme of the utility model is directly or indirectly applied to other related technical fields, and the technical scheme is included in the patent protection scope of the utility model.

Claims (10)

1. The utility model provides an orchard water under high pressure fertile medicine shunt for sprinkling irrigation system which characterized in that: the device comprises a gas circuit pipeline (1), a liquid circuit pipeline (2) and a plurality of communication mechanisms connected between the gas circuit pipeline (1) and the liquid circuit pipeline (2); the communicating mechanism comprises a third connecting pipe (3), a first connecting pipe (4) communicated between the third connecting pipe (3) and the gas circuit pipeline (1), and a second connecting pipe (5) communicated between the third connecting pipe (3) and the liquid circuit pipeline (2).

2. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: the two ends of the gas circuit pipeline (1) are respectively provided with a third valve (8) and a fourth valve (9), and the joint between the third connecting pipe (3) and the gas circuit pipeline (1) is positioned between the third valve (8) and the fourth valve (9).

3. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: the two ends of the liquid pipeline (2) are respectively provided with a fifth valve (10) and a sixth valve (11), and the joint between the third connecting pipe (3) and the liquid pipeline (2) is positioned between the fifth valve (10) and the sixth valve (11).

4. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: the outlet end of the third connecting pipe (3) is connected with a high-pressure internal thread joint (12).

5. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: the first connecting pipe (4) is provided with a first valve (6).

6. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: a second valve (7) is arranged on the second connecting pipe (5).

7. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: the third connecting pipe (3) is respectively communicated with the first connecting pipe (4) and the second connecting pipe (5) through a tee joint (17).

8. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: two ends of the gas circuit pipeline (1) are respectively connected with a gas source mechanism (13) and a gas-liquid constant pressure mechanism (14) in the high-pressure water fertilizer and pesticide spray irrigation system of the orchard.

9. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: two ends of the liquid pipeline (2) are respectively connected with a water-fertilizer-pesticide conveying mechanism (15) and an air-liquid constant-pressure mechanism (14) in the orchard high-pressure water-fertilizer-pesticide sprinkling irrigation system.

10. The shunt for the orchard high-pressure water fertilizer and pesticide sprinkling irrigation system according to claim 1, characterized in that: the third connecting pipe (3) is connected with a water-fertilizer-pesticide sprinkling irrigation mechanism (16).

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