CN210987484U - Orchard integrated management system with medicine and fertilizer reduction functions - Google Patents

Abstract

The utility model discloses an orchard integrated management system that fertile two subtract of medicine, it includes air water reposition of redundant personnel subassembly and goes out return water subassembly and other attached equipment, and the air water export one-to-one on the branch pipe of two parts uses irrigation pipe to connect, and the air water interface of having arranged on irrigation pipe. It can establish the integrated system who collects functions in an organic whole such as irrigation, fertilize, spout medicine, pruning, pick, loosen the soil, natural pond liquid returning, carries out the backward flow to the residual liquid in the pipeline simultaneously and collects, makes things convenient for next use, and water economy resource and fertile cost of medicine, compressed gas in the gas transmission pipeline of the orchard integrated management system that fertile two subtract of medicine simultaneously can be for using pneumatic scissors, pneumatic weeder etc. to provide power in the orchard, greatly alleviates intensity of labour.

Description

Orchard integrated management system with medicine and fertilizer reduction functions

Technical Field

The utility model belongs to the technical field of the pipeline is irrigated, concretely relates to orchard integrated management system that fertile two subtract of medicine.

Background

Nowadays, the shortage of water resources becomes a bottleneck restricting the development of China and even global economy, the annual agricultural water occupies 70% of the total water consumption of China, the problems of low agricultural irrigation efficiency and water waste are in common existence, and therefore the development of water-saving agriculture and the improvement of the utilization efficiency of the agricultural water are important links in the water-saving strategy of China. The irrigation system is reasonably popularized with automatic control, which not only can improve the utilization rate of resources and relieve the contradiction that water resources are increasingly tense, but also can increase the yield of crops and reduce the cost of agricultural products. The planting of fruit trees is especially a big household consuming water, so the construction of an orchard pipeline irrigation system is very important, and the currently adopted water-saving irrigation technology for planting fruit trees and orchards in mountainous regions, hills, terraced fields and other areas commonly adopts water-saving irrigation methods such as a drip irrigation technology, a spray irrigation technology, a micro-spray technology, an infiltration irrigation technology, a micro-irrigation technology and the like.

The inventor finds that the prior arts have at least the following technical problems in the practical use process:

when irrigation is finished, a large amount of water is remained in the pipeline, which is a great waste of water resources, especially when water-soluble fertilizer is applied or liquid medicine is sprayed, residual liquid in the pipeline is a great waste, cost can be reduced to a certain extent if the residual liquid can be reused, and in the management process of an orchard, labor intensity of pruning, weeding and the like by manpower is great, and various tools are limited by power and cannot be used.

Disclosure of Invention

For overcoming the not enough of above-mentioned existence, the utility model discloses an inventor constantly reforms transform and innovate through long-term exploration attempt and experimental and the effort many times, has provided the orchard integrated management system that the medicine is fertile two to subtract, and it can establish the integrated system of function in an organic whole such as collection irrigates, fertilizes, spouts medicine, prunes, picks, loosens the soil, the natural pond liquid is still field.

1. In order to realize the purpose, the utility model adopts the technical scheme that: the orchard integrated management system with the medicine and fertilizer double reduction function is characterized by comprising a hydraulic machine, an air compressor, a power cabinet, a blending pool, a water outlet and return component and an air-water flow component, wherein the water outlet and return component is connected with the air-water flow distribution component and the hydraulic machine, the air-water flow distribution component is also connected with the air compressor, the hydraulic machine is communicated with the blending pool, and the power cabinet is arranged between the hydraulic machine and the air compressor;

the gas-water diversion assembly comprises a gas transmission pipeline and a water transmission pipeline A, and a branch pipe is arranged between the gas transmission pipeline and the water transmission pipeline A;

the water outlet and return component comprises a water return pipeline and a water conveying pipeline B, and a branch pipe is arranged between the water return pipeline and the water conveying pipeline B;

the middle parts of the branch pipes of the gas-water distribution assembly and the water outlet and return assembly are provided with gas-water outlets, the branch pipes on two sides of the gas-water outlets are provided with small gate valves, the gas-water outlets of the branch pipes of the gas-water distribution assembly are communicated with the gas-water outlets of the branch pipes of the water outlet and return assembly through irrigation pipelines, and gas-water interfaces are distributed on the irrigation pipelines.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the air compressor machine is connected air compressor machine low pressure and is adjusted end and air compressor machine high pressure and adjust the end, and air compressor machine low pressure is adjusted the end and is still connected with the constant voltage jar, and the other end of conduit is connected to the constant voltage jar, and air compressor machine low pressure is adjusted the end and is connected the gas-supply pipe low pressure end simultaneously, and air compressor machine high pressure is adjusted the end and is connected the gas-supply pipe high pressure end for the atmospheric pressure at gas-supply pipeline both ends can both be adjusted and the guarantee, and the water pressure.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the branch pipe of air water reposition of redundant personnel subassembly is a set of with the branch pipe quantity that goes out the return water subassembly for six, sets up a plurality of air water reposition of redundant personnel subassemblies and a return water subassembly in the orchard integrated management system that the medicine is fertile two to subtract, and these two subassembly quantity in the system can correspond the adjustment, and the convenience is to the regional rational arrangement of laying of different areas.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the branch pipes of the gas-water distribution assembly correspond to the branch pipes of the water outlet and return assembly one by one, and are connected by using irrigation pipelines in a corresponding mode, wherein the number of the irrigation pipelines is six.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: both ends of a water pipe of the air-water distribution assembly are provided with valve flange pieces; the two ends of the water delivery pipeline of the water outlet and return assembly are provided with the valve flange pieces, the left end of the water return pipeline is provided with the valve flange pieces, and the valve flange pieces are arranged to facilitate installation with other facilities.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the air-water distribution component is positioned on the right side of the water outlet and return component, the valve flange sheets in the middle of the lower part are connected to form a water conveying pipeline, and the valve flange sheet on the left side of the water return pipeline is connected with other pipelines to form a complete water return loop.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the large gate valve is arranged at the position of the valve flange connecting port on the right side of the gas-water distribution assembly, and the large gate valve is arranged at the position of the valve flange connecting port on the left side of the water outlet and return assembly, so that the whole water flow pipeline is conveniently controlled.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the water inlet of the water conveying pipeline is provided with a safety valve and a pressure gauge, the tail end of the water return pipeline is provided with a water inlet of the water return pipeline which is provided with a safety valve and a pressure gauge, the safety valve ensures that the pressure of the pipeline is below a safety line, and the pressure gauge can directly observe pressure data in the pipeline.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the number of the blending pools is two, the hydraulic machine is connected with the two blending pools by using pipelines, a small gate valve is arranged on each pipeline of the blending pools, the water return pipeline is connected with the two blending pools, and a small gate valve is arranged at a joint, so that the single water inlet and outlet of any one blending pool can be conveniently controlled.

According to fertile orchard integrated management system who subtracts of medicine, its further preferred technical scheme is: the hydraulic press is also provided with a branch pipe which is connected with a return water loop, and the returned residual liquid can be directly irrigated again.

Compared with the prior art, the technical scheme of the utility model have following advantage beneficial effect:

1. be provided with the air water interface on the irrigation pipe, conveniently irrigate and use pneumatic tool to manage the orchard, reduce intensity of labour greatly, for example use pneumatic scissors to prune, pneumatic weeder weeding, use compressed air to guarantee pollution-free production environment as power simultaneously.

2. The system is used for managing orchards and the like, can scientifically and systematically culture and fertilize, reduces plant diseases and insect pests, reduces the use of fertilizers and medicines and further reduces the cost; meanwhile, residual liquid in the pipeline is recycled through related facilities such as a gas transmission pipeline, a water return pipeline and the like, so that the use of medicines and fertilizers is further reduced, and the cost is reduced.

3. The functionality is strong: the orchard integrated management system is a comprehensive system integrating functions of irrigation, fertilization, pesticide spraying, trimming, picking, soil loosening, biogas slurry returning and the like by applying a hydraulic and pneumatic control principle and a mechanical technical principle and by utilizing modern industrial scientific and technological achievements and according to the development requirements of modern agriculture. The method takes a central control system as a core, and carries out accurate management in a fragmentation and time-sharing way according to the actual conditions of the growth and development of crops, soil moisture, environmental conditions and the like, thereby achieving the purposes of saving water, fertilizer, medicine, labor and high yield and high-efficiency production and being a revolutionary comprehensive technology for comprehensively upgrading the traditional agricultural management.

4. The applicability is wide: the system is widely applied to economic crops such as fruit trees, tea leaves, silkworms and the like and urban garden management. The device is particularly suitable for southwest areas which mainly comprise mountainous areas and hilly areas and can not realize mechanized management.

5. Policy support is large: the system has small investment and strong function. The design follows the strategic direction of the national development of ecological cycle agriculture, meets the requirements of the national projects of livestock and poultry manure resource utilization, pesticide and fertilizer dual reduction, fertilizer replacement for chemical fertilizers, efficient water-saving irrigation, water and fertilizer integration and the like on the modern agricultural development planning, and is a novel, practical and efficient channel and way for realizing the project targets.

6. The cost performance is high: the orchard integrated management system is practically applied, 2-3 tons of biogas slurry are used per mu, the fertilizer is saved by 40% per mu, and the investment is saved by 160 yuan per mu; the water is saved by 50 percent, and the water is saved by 100 cubic meters per mu; the pesticide dosage per mu is reduced by 30 percent, and about 120 yuan is saved; the labor is saved by 60% per mu, and 300 yuan is saved; the cost is saved by 580 yuan for each mu. Meanwhile, the large-area simultaneous operation can be realized, the influence of natural disasters is reduced, the quality, the appearance and the yield of agricultural products are greatly improved, and the high quality and the high price are realized. The cost is saved and the income is increased in 1 to 2 years in normal years of an adult orchard, the construction cost can be quickly recovered, and the investment effect is quick.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

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

Fig. 2 is a schematic view of the connection structure of the irrigation pipe of the present invention.

Fig. 3 is a schematic view of the flat ground laying structure of the present invention.

Fig. 4 is the structural schematic diagram of the mountain pavement of the utility model.

The labels in the figure are respectively: 1. the water supply system comprises a water pipeline B2, a gas pipeline 3, a water return pipeline 4, a safety valve 5, a pressure gauge 6, a water return loop 7, a small gate valve 8, an air water outlet 9, a large gate valve 10, a valve flange sheet 11, an irrigation pipeline 12, an air water interface 13, a water pipeline A14, a blending pool 15, a constant pressure tank 16, a low pressure regulating valve 17, a high pressure regulating valve 18, an air compressor 19, a hydraulic press 20, a power cabinet 21, a plant 101 and orchard integrated management system equipment.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the detailed description of the embodiments of the present invention provided below is not intended to limit the scope of the claimed invention, but is merely representative of selected embodiments of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.

Example (b):

as shown in fig. 1, the device comprises a hydraulic machine 19, an air compressor 18, a power cabinet 20, a blending pool 14, a water outlet and return component and an air-water flow component, wherein the water outlet and return component is connected with the air-water flow component and the hydraulic machine 19, the air-water flow component is also connected with the air compressor 18, the hydraulic machine 19 is communicated with the blending pool 14, and the power cabinet is arranged between the hydraulic machine 19 and the air compressor 18.

The gas-water diversion component is formed by arranging the gas transmission pipeline 2 and the water transmission pipeline A13 in parallel as much as possible, and arranging a branch pipe between the water transmission pipeline B1 and the gas transmission pipeline 2;

the water outlet and return component is formed by arranging the water return pipeline 3 and the water conveying pipeline B1 in parallel as much as possible, and a branch pipe is arranged between the water conveying pipeline B1 and the water return pipeline 3.

The middle parts of all the branch pipes are provided with an air-water outlet 8, branch pipes at two sides of the air-water outlet 8 are provided with small gate valves 7, the branch pipe air-water outlet of the air-water diversion assembly is communicated with the branch pipe air-water outlet 8 of the water outlet and return assembly by using an irrigation pipeline 11, air-water ports 12 are distributed on the irrigation pipeline, one end of a water conveying pipeline is connected with a hydraulic machine 19, the hydraulic machine 19 is communicated with a blending pool through a pipeline, one end of the air conveying pipeline is connected with an air compressor 18, and a power cabinet 20 is arranged between the.

One end of a water pipeline is connected with the hydraulic machine 19, the hydraulic machine 19 is communicated with the blending pool 14 through a pipeline, the other end of the water pipeline is connected with the constant pressure tank 15, the constant pressure tank 15 is connected with the air compressor low-pressure regulating valve 16, the high-pressure end of the gas pipeline is connected with the air compressor high-pressure regulating valve 17, the low-pressure end of the gas pipeline is connected with the air compressor low-pressure regulating valve 16, the air compressor low-pressure regulating valve 16 and the air compressor high-pressure regulating valve 17 are combined into a master controller, and the master controller. The distal end of water pipeline is connected with constant voltage jar 15, can increase the water pressure of distal end, and in a similar way, the distal end of gas transmission pipeline 2 is connected with air compressor machine 18, can adjust the atmospheric pressure of distal end along with the demand, guarantees simultaneously that the distal end of gas transmission pipeline 2 can not produce the production of situations such as the operation is slow because of the pressure undersize in the return water in-process. The hydraulic press is also provided with a branch pipe which is connected with a return water loop 6, and the returned residual liquid can be directly irrigated again.

As shown in fig. 2, the number of the branch pipes of the gas-water diversion assembly and the branch pipes of the water outlet and return assemblies is one set of six, certainly, the number of one set can be increased or decreased according to the demand, in the orchard integrated management system with double reduction of chemical fertilizer, a plurality of sets of the gas-water diversion assembly and the water outlet and return assemblies are arranged, the number of the gas-water diversion assembly and the water outlet and return assemblies is corresponding, when the water pressure or air pressure can not meet the demand, a water press and an air compressor can be added in the middle of the pipeline, the branch pipes of the gas-water diversion assembly can be numbered as S1, S2, S3, S4, S5 and S6 from left to right, the branch pipes of the water outlet and return assemblies are numbered as T1, T2, T3, T4, T5 and T6 from right to left, the branch pipes of all the gas-water diversion assemblies and the branch pipes of the water outlet and return assemblies correspond one to one, the irrigation pipelines 11 are connected with each set of six irrigation, i.e., T1 was linked to S1. The irrigation pipeline is provided with an air-water interface, so that irrigation and use of various pneumatic tools such as pneumatic shears, pneumatic weeders and the like are facilitated.

Two ends of a water pipe A13 of the air-water diversion assembly are provided with valve flange pieces 10; go out the conduit B1 both ends of return water subassembly and be provided with flange piece 10, return water pipe 3 left end is provided with flange piece 10, integrates these modules, easy to assemble. The air-water distribution component is positioned on the right side of the water outlet and return component, the valve flange pieces 10 in the middle of the lower part are connected to form a water conveying pipeline in the middle, and the valve flange pieces 10 on the left side of the water return pipeline 3 are connected with other pipelines to form a complete water return pipeline. And a large gate valve 9 is arranged at the position of a connecting port of the valve flange sheet 10 on the right side of the gas-water diversion assembly, and a large gate valve 9 is arranged at the position of a connecting port of the valve flange sheet 10 on the left side of the water outlet and return assembly and is used as a switch at two ends of a water pipeline.

A safety valve 4 and a pressure gauge 5 are arranged at a water inlet of the water conveying pipeline, and the safety valve 4 and the pressure gauge 5 are arranged at a water inlet arranged at the tail end of the water return pipeline 3, so that visual understanding and safety protection of pressure in the pipe are facilitated.

The number of the blending pools 14 is two, the hydraulic machine 19 is connected with the two blending pools 14 by using pipelines, each blending pool 14 is provided with a small gate valve 7 on the pipeline, the water return pipeline 3 is respectively provided with outlets on the two blending pools 14, each outlet is provided with a small gate valve 7 for control, and of course, the number of the blending pools 14 is not fixed and can be correspondingly increased according to the situation.

As shown in fig. 3 and 4, the orchard integrated management system device 101 includes all other devices except the irrigation pipe, the orchard integrated management system device 101 is arranged in the middle of the land where the land is laid as much as possible, the length of the pipe can be reduced, the internal pressure of the pipe can be ensured, plants 21 are planted in the land, the specific form of the on-site arrangement is divided into two types, namely flat land and mountain land, when the land faces a relatively flat land, the land is divided into square land blocks with similar areas, the irrigation pipe 11 is laid around each land block, namely the irrigation pipe 11 is also arranged in a square shape, when the mountain land is arranged, the irrigation pipe 11 is vertically arranged on the mountain, and the transverse pipe is arranged between the vertical pipes to form a net structure to ensure the irrigation area.

The working principle is as follows:

when irrigation is carried out, close the small gate valve on the branch pipe close to the gas transmission pipeline on the corresponding irrigation pipeline gas-water flow component and close the small gate valve close to the water return pipe part on the water return component, open the small gate valve on the branch pipe close to the water transmission pipeline corresponding to the irrigation pipeline, the gas-water outlet is only communicated with the water transmission pipeline at the moment, open the big gate valve on the water transmission pipeline to make the water route connected, under the work of pumping equipment, the water pressure rises, the water flow is full of the water transmission pipeline and the irrigation pipeline, the gas-water interface is arranged on the irrigation pipeline, the spraying gun is used, the water pipe, the process of spraying the liquid medicine can be realized by connecting the gas-water interfaces into the gas-water interfaces through the nozzles and the like, meanwhile, the existence of the.

And (3) finishing irrigation, returning residual liquid in the irrigation pipeline, opening a small gate valve on a branch pipe close to the gas transmission pipeline on a gas-water distribution component corresponding to the irrigation pipeline and a small gate valve on a branch pipe close to a water return pipe part on a water outlet and return component, closing the small gate valves on the branch pipes close to the water transmission pipeline, communicating the branch pipes with the return pipeline and the gas transmission pipeline, enabling high-pressure gas to flow into the irrigation pipeline from the gas transmission pipeline, enabling residual liquid of the irrigation pipeline to flow into the return pipeline under the pressure of the high-pressure gas, enabling the number of the blending pools to be two, opening the small gate valves of the corresponding blending pools which are in use, and enabling the residual liquid to flow back to the corresponding blending pools through the return pipelines, so that other pipelines or.

In the process of irrigation, each irrigation pipeline works independently, all irrigation pipelines can be selected to be opened simultaneously for irrigation, and part of the irrigation pipelines can be selected for irrigation, and other irrigation pipelines do not work.

In-process such as pruning weeding need only be connected pneumatic tool through air water interface and irrigation pipe on the irrigation pipe that does not irrigate, open the little gate valve that is close to gas transmission pipeline on the air water reposition of redundant personnel subassembly, close the little gate valve that is close to water transmission pipeline on the air water reposition of redundant personnel subassembly, close go out all little gate valves on the return water subassembly can, and irrigation pipe arranges around the parcel, can guarantee required scope full coverage, reduce manpower consumption.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. The first feature being "under," "below," and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or merely indicates that the first feature is at a lower level than the second feature.

The above is only a preferred embodiment of the present invention, and it should be noted that the above preferred embodiment should not be considered as limiting the present invention, and the protection scope of the present invention should be subject to the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the spirit and scope of the invention, and such modifications and enhancements are intended to be within the scope of the invention.

Claims (10)

1. The orchard integrated management system with the medicine and fertilizer double reduction function is characterized by comprising a hydraulic machine, an air compressor, a power cabinet, a blending pool, a water outlet and return component and an air-water flow component, wherein the water outlet and return component is connected with the air-water flow distribution component and the hydraulic machine, the air-water flow distribution component is also connected with the air compressor, the hydraulic machine is communicated with the blending pool, and the power cabinet is arranged between the hydraulic machine and the air compressor;

the gas-water diversion assembly comprises a gas transmission pipeline and a water transmission pipeline A, and a branch pipe is arranged between the gas transmission pipeline and the water transmission pipeline A;

the water outlet and return component comprises a water return pipeline and a water conveying pipeline B, and a branch pipe is arranged between the water return pipeline and the water conveying pipeline B;

the middle parts of the branch pipes of the gas-water distribution assembly and the water outlet and return assembly are provided with gas-water outlets, the branch pipes on two sides of the gas-water outlets are provided with small gate valves, the gas-water outlets of the branch pipes of the gas-water distribution assembly are communicated with the gas-water outlets of the branch pipes of the water outlet and return assembly through irrigation pipelines, and gas-water interfaces are distributed on the irrigation pipelines.

2. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 1, wherein the air compressor is connected with a low-pressure adjusting end of the air compressor and a high-pressure adjusting end of the air compressor, the low-pressure adjusting end of the air compressor is further connected with a constant-pressure tank, the constant-pressure tank is connected with the other end of the water pipeline, the low-pressure adjusting end of the air compressor is connected with a low-pressure end of an air pipe, and the high-pressure adjusting end of the air compressor is connected with a high.

3. The orchard integrated management system with double reduction of pesticide and fertilizer according to claim 2 is characterized in that the number of the branch pipes of the gas-water distributing assembly and the branch pipes of the water outlet and return assembly is one set of six, and multiple sets of the gas-water distributing assembly and the water outlet and return assembly are arranged in the orchard integrated management system with double reduction of pesticide and fertilizer.

4. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 2, wherein the branch pipes of the gas-water distribution assembly correspond to the branch pipes of the water outlet and return assembly one by one, and are connected by using irrigation pipelines, wherein the number of the irrigation pipelines is six.

5. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 1, wherein both ends of a water pipeline A of the gas-water diversion assembly are provided with valve flange pieces; the two ends of the water delivery pipe B of the water outlet and return assembly are provided with the valve flange pieces, and the left end of the water return pipe is provided with the valve flange pieces.

6. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 5, wherein the gas-water distribution component is located on the right of the water outlet and return component, the valve flange pieces in the middle of the lower part are connected to form a water conveying pipeline, and the valve flange piece on the left of the water return pipeline is connected with other pipelines to form a complete water return loop.

7. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 5, wherein a large gate valve is installed at a valve flange connecting port on the right side of the gas-water diversion assembly, and a large gate valve is installed at a valve flange connecting port on the left side of the water outlet and return assembly.

8. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 1, wherein a safety valve and a pressure gauge are arranged at a water inlet of the water conveying pipeline, and a safety valve and a pressure gauge are arranged at a water inlet arranged at the tail end of the water return pipeline.

9. The orchard integrated management system for double reduction of pesticide and fertilizer according to claim 1 is characterized in that the number of blending pools is two, the hydraulic machine is connected with the two blending pools by using pipelines, a small gate valve is arranged on each pipeline of the blending pools, and a water return pipeline is connected with the two blending pools and is provided with the small gate valve at an interface.

10. The integrated orchard management system with double reduction of pesticide and fertilizer according to claim 1, characterized in that the hydraulic press is further provided with a branch pipe connected with a water return loop.

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