CN211353090U - Bypass type water and fertilizer integrated machine for injecting fertilizer into branch pipeline - Google Patents

Abstract

The utility model discloses a by-pass liquid manure all-in-one machine for branch pipeline fertilizer injection, which comprises an irrigation main pipeline, wherein the irrigation main pipeline is connected with an irrigation water pump, the irrigation main pipeline is communicated with a fertilization inlet pipeline, the fertilization inlet pipeline is connected with a fertilization pump, the fertilization pump is connected with a plurality of fertilizer absorbers, each fertilizer absorber is communicated with a fertilizer storage tank, the fertilizer absorbers are arranged in parallel and are all connected with a fertilization outlet pipeline, the fertilization outlet pipeline is communicated with the irrigation main pipeline, and the communicating point of the fertilization outlet pipeline and the irrigation main pipeline is positioned behind the communicating point of the fertilization inlet pipeline and the irrigation main pipeline; the main irrigation pipeline is communicated with a plurality of parallel branch pipelines.

Description

Bypass type water and fertilizer integrated machine for injecting fertilizer into branch pipeline

Technical Field

The utility model belongs to the technical field of fertigation equipment, concretely relates to by-pass formula liquid manure all-in-one is annotated to branch pipeline.

Background

For the field irrigation, the water resource is seriously short and the utilization rate is low, and the effective utilization coefficient of the field irrigation water is only 0.542. Meanwhile, the utilization rate of farmland fertilization fertilizers is only 25% -30%, and the loss of fertilizers not only causes resource waste, but also seriously pollutes the environment. The best water and fertilizer management measures are sought, and the method has great significance for solving the current resource shortage and improving the resource utilization rate.

The water and fertilizer integration technology integrates irrigation and fertilization, can provide a proper amount of water and nutrients according to the growth requirements of crops, and is considered to be the technology with the best water and fertilizer utilization efficiency in the world.

The liquid manure integration machine in large-traffic irrigation system has the uneven problem of liquid manure mixture at present, and this phenomenon is more obvious when the irrigation pipe diameter is big more.

SUMMERY OF THE UTILITY MODEL

The purpose of the disclosure is to overcome the defects of the prior art and provide a by-pass type water-fertilizer all-in-one machine for injecting fertilizer into branch pipelines; the water and fertilizer integrated machine is used for irrigation of orchard and field crops, and ensures large-flow irrigation of an irrigation system while water and fertilizer integrated operation is realized. The by-pass liquid manure all-in-one is annotated to branch pipeline of this disclosure has add circulation mixed structure to optimize and irrigate prelude pipe-line system, improved the degree of consistency that liquid manure mixes when guaranteeing irrigation flow.

The utility model aims at providing a branch pipe says and annotates fertile by pass formula liquid manure all-in-one, in order to realize above-mentioned purpose, this disclosure adopts following technical scheme:

a by-pass type water and fertilizer integrated machine for injecting fertilizer through branch pipelines comprises an irrigation main pipeline, wherein the irrigation main pipeline is connected with an irrigation water pump, the irrigation main pipeline is communicated with a fertilization inlet pipeline, the fertilization inlet pipeline is connected with a fertilization pump, the fertilization pump is connected with a plurality of fertilizer absorbers, each fertilizer absorber is communicated with a fertilizer storage tank, the fertilizer absorbers are arranged in parallel and are connected with a fertilization outlet pipeline, the fertilization outlet pipeline is communicated with the irrigation main pipeline, and the communication point of the fertilization outlet pipeline and the irrigation main pipeline is positioned behind the communication point of the fertilization inlet pipeline and the irrigation main pipeline; the main irrigation pipeline is communicated with a plurality of parallel branch pipelines.

As a further technical scheme, the head end of the irrigation main pipeline is sequentially provided with a water inlet pressure gauge, a filter, a water inlet electromagnetic valve and a water meter, and the tail end of the irrigation main pipeline is provided with a water outlet electromagnetic valve and a filter.

As a further technical scheme, the irrigation main pipeline is further communicated with a detection inlet pipeline, the detection inlet pipeline is communicated with a monitoring sampling box, and the monitoring sampling box is communicated with a monitoring fertilizer absorber.

As a further technical scheme, the monitoring fertilizer absorber is also communicated with the fertilizer pump and is connected with the fertilizer absorber in parallel.

As a further technical scheme, the monitoring sampling box is provided with an EC sensor and a PH sensor.

As a further technical scheme, the communication point of the detection inlet pipeline and the irrigation main pipeline is positioned in front of the communication point of the fertilization inlet pipeline and the irrigation main pipeline.

As a further technical scheme, each fertilizer storage tank is provided with a fertilizer storage tank electromagnetic valve, and the bottom of each fertilizer absorber is provided with a fertilizer absorber electromagnetic valve.

As a further technical scheme, each branch pipeline is provided with a branch pipeline electromagnetic valve.

The beneficial effect of this disclosure does:

the water and fertilizer all-in-one machine has the advantages that the irrigation pipeline is the main system, the fertilizer injection is the sub-system, the fertilizer liquid is injected into the irrigation main pipeline through the fertilizer applicator, the water and fertilizer integrated operation is realized, and the large-flow irrigation of the whole system is guaranteed.

The liquid manure all-in-one machine reasonably designs the nutrient solution circulating system and the EC/PH monitoring system by optimizing the pipeline structure, and adopts the pressurized venturi fertilizer suction structure, so that the uniformity of liquid manure mixing is ensured, and accurate irrigation and fertilization are realized.

The utility model discloses a liquid manure all-in-one irrigates the head and is equipped with the manometer to realize the constant voltage water supply through irrigating the pump, guaranteed the steady operation of liquid manure integration system.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

FIG. 1 is a schematic view of the overall structure disclosed in one embodiment;

in the figure, a water inlet pressure gauge 1, a filter 2, a water inlet electromagnetic valve 3, a water meter 4, an irrigation main pipeline 5, an irrigation water pump 6, a 7A # fertilizer storage tank, a 8B # fertilizer storage tank, a 9C # fertilizer storage tank, a 10A # fertilizer storage tank electromagnetic valve, a 11B # fertilizer storage tank electromagnetic valve, a 12C # fertilizer storage tank electromagnetic valve, a 13 irrigation main pipeline 14, a fertilization outlet pipeline 14, a 15 EC sensor, a 16 PH sensor, a 17 fertilization inlet pipeline 17, a 18 detection inlet pipeline 19A # fertilizer absorber, a 20B # fertilizer absorber, a 21C # fertilizer absorber, a 22 monitoring fertilizer absorber, a 23 monitoring sampling box, a 24A # fertilizer absorber electromagnetic valve, a 25B # fertilizer absorber electromagnetic valve, a 26C # fertilizer absorber electromagnetic valve, a 27 monitoring fertilizer absorber electromagnetic valve, a 28 detection outlet pipeline 29 fertilizer pump, a 30 water outlet electromagnetic valve 31, an irrigation main pipeline 32, a 33 branch pipeline, a fertilizer pump, a fertilizer outlet pipeline 32, 34 branch line solenoid valves.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an", and/or "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof;

for convenience of description, the words "up", "down", "left" and "right" in this disclosure, if any, merely indicate correspondence with up, down, left and right directions of the drawings themselves, and do not limit the structure, but merely facilitate description of the disclosure and simplify description, rather than indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the disclosure.

Just as the introduction of background art, prior art exists not enough, in order to solve above technical problem, this application has proposed a branch pipe way fertilizer injection bypass formula liquid manure all-in-one.

The application provides a by-pass type water and fertilizer integrated machine for injecting fertilizer through branch pipelines, which comprises an irrigation main pipeline, wherein the irrigation main pipeline is connected with an irrigation water pump, the irrigation main pipeline is communicated with a fertilization inlet pipeline, the fertilization inlet pipeline is connected with a fertilization pump, the fertilization pump is connected with a plurality of fertilizer absorbers, each fertilizer absorber is communicated with a fertilizer storage tank, the fertilizer absorbers are arranged in parallel and are connected with a fertilization outlet pipeline, the fertilization outlet pipeline is communicated with the irrigation main pipeline, and the communication point of the fertilization outlet pipeline and the irrigation main pipeline is positioned behind the communication point of the fertilization inlet pipeline and the irrigation main pipeline; the main irrigation pipeline is communicated with a plurality of parallel branch pipelines.

Example 1

The water and fertilizer integrated machine disclosed in the embodiment is further described with reference to fig. 1;

referring to the attached figure 1, the by-pass type water and fertilizer integrated machine for branch pipeline fertilizer injection comprises an irrigation head part, a liquid fertilizer supply system, a fertilizer applicator and an irrigation terminal, and is a water and fertilizer integrated system for orchard and field crops.

The definitions of the front and rear in this disclosure are: taking the flow direction of water in the main irrigation pipeline as a standard, the flow direction from upstream to downstream is called as "front", and vice versa.

Irrigate the prelude including water inlet manometer 1, filter 2, water inlet solenoid valve 3, water gauge 4, irrigate main line 5, irrigate water pump 6 and irrigate main line 5 and be connected, irrigate main line 5 and go up to set gradually water inlet manometer 1, filter 2, water inlet solenoid valve 3, water gauge 4, water inlet manometer 1 monitors the water pressure of irrigating main line 5, filter 2 filters the water of irrigating main line 5, water inlet solenoid valve 3 control irrigates the main line 5 inside water circulation whether, water gauge 4 monitors the flow of irrigating main line 5.

Fertile supply system of liquid includes A # stores up fertile jar 7, B # stores up fertile jar 8, C # stores up fertile jar 9, A # stores up fertile jar solenoid valve 10, B # stores up fertile jar solenoid valve 11, C # stores up fertile jar solenoid valve 12, 7 bottoms of A # stores up fertile jar sets up A # stores up fertile jar solenoid valve 10, whether it flows out or not to be used for controlling fertilizer in A # stores up fertile jar 7, 8 bottoms of B # stores up fertile jar set up B # stores up fertile jar solenoid valve 11, whether it flows out or not to be used for controlling fertilizer in B # stores up fertile jar 8, 9 bottoms of C # stores up fertile jar sets up C # stores up fertile jar solenoid valve 12, whether it flows out or not to be used for controlling fertilizer in C # stores up fertile jar 9.

The fertilizer applicator comprises a fertilizer outlet pipeline 14, an EC sensor 15, a PH sensor 16, a fertilizer inlet pipeline 17, a detection inlet pipeline 18, an A # fertilizer absorber 19, a B # fertilizer absorber 20, a C # fertilizer absorber 21, a monitoring fertilizer absorber 22, a monitoring sampling box 23, an A # fertilizer absorber electromagnetic valve 24, a B # fertilizer absorber electromagnetic valve 25, a C # fertilizer absorber electromagnetic valve 26, a monitoring fertilizer absorber electromagnetic valve 27, a detection outlet pipeline 28 and a fertilizer pump 29; the A # fertilizer storage tank 7 is communicated with the A # fertilizer absorber 19 through a fertilizer conveying pipeline, the bottom of the A # fertilizer absorber 19 is provided with an A # fertilizer absorber electromagnetic valve 24 for controlling the inflow of the fertilizer of the A # fertilizer absorber 19, the B # fertilizer storage tank 8 is communicated with the B # fertilizer absorber 20 through a fertilizer conveying pipeline, the bottom of the B # fertilizer absorber 20 is provided with a B # fertilizer absorber electromagnetic valve 25 for controlling the inflow of the fertilizer of the B # fertilizer absorber 20, the C # fertilizer storage tank 9 is communicated with the C # fertilizer absorber 21 through a fertilizer conveying pipeline, and the bottom of the C # fertilizer absorber 21 is provided with a C # fertilizer absorber electromagnetic valve 26 for controlling the inflow of the fertilizer of the C # fertilizer absorber 21;

the A # fertilizer absorber 19, the B # fertilizer absorber 20, the C # fertilizer absorber 21 and the monitoring fertilizer absorber 22 are arranged in parallel, the main pipeline of the four pipelines is communicated with the fertilization outlet pipeline 14, and the fertilization outlet pipeline 14 is communicated with the irrigation main pipeline 13;

the bottom of the monitoring fertilizer absorber 22 is provided with a monitoring fertilizer absorber electromagnetic valve 27 for controlling whether the fertilizer of the monitoring fertilizer absorber 22 flows in or not, the monitoring fertilizer absorber 22 is communicated with the monitoring sampling box 23 through a detection outlet pipeline 28, the monitoring sampling box 23 is provided with an EC sensor 15 and a PH sensor 16 for respectively measuring an EC value and a PH value, and the monitoring sampling box 23 is communicated with the irrigation main pipeline 13 through a detection inlet pipeline 18;

the irrigation main pipeline 13 is communicated with the irrigation main pipeline 5, the fertilization inlet pipeline 17 is communicated with the irrigation main pipeline 13, the connection point of the fertilization outlet pipeline 14 and the irrigation main pipeline 13 is positioned behind the connection point of the fertilization inlet pipeline 17 and the irrigation main pipeline 13, and the connection point of the detection inlet pipeline 18 and the irrigation main pipeline 13 is positioned in front of the connection point of the fertilization inlet pipeline 17 and the irrigation main pipeline 13; the fertilization inlet pipeline 17 is connected to a fertilization pump 29, and the fertilization pump 29 is communicated with the A # fertilizer absorber 19, the B # fertilizer absorber 20, the C # fertilizer absorber 21 and the monitoring fertilizer absorber 22 through pipelines.

The irrigation terminal comprises a water outlet electromagnetic valve 30, an irrigation main pipeline 31, a filter 32, branch pipelines 33 and branch pipeline electromagnetic valves 34, wherein the irrigation main pipeline 31 is communicated with the irrigation main pipeline 13, the irrigation main pipeline 31 is provided with the water outlet electromagnetic valve 30 to control whether water flows out, the irrigation main pipeline 31 is provided with the filter 32 to filter water and fertilizer in the irrigation main pipeline 31, the irrigation main pipeline 31 is communicated with the plurality of parallel branch pipelines 33, and the branch pipelines 33 are provided with the branch pipeline electromagnetic valves 34 to control whether the branch pipelines 33 flow out.

In the water and fertilizer all-in-one machine, the irrigation main pipeline 5, the irrigation main pipeline 13 and the irrigation main pipeline 31 which are arranged in sections form an irrigation main pipeline of an integral system.

The prior devices are adopted for various pressure gauges, filters, electromagnetic valves, water meters, sensors, fertilizer absorbers and the like, which are related to the present disclosure and are not described herein again.

The concrete working process of this liquid manure all-in-one of this disclosure does:

when the system irrigates, irrigation water pump 6 starts, and irrigation water gets into irrigation main pipe 5, respectively through water inlet manometer 1, filter 2, water inlet solenoid valve 3, water gauge 4, irrigation main pipe 13, gets into the field pipeline, passes through delivery port solenoid valve 30, irrigation main pipe 31, filter 32, lateral conduit 33, lateral conduit solenoid valve 34 in proper order, irrigates.

When the system is used for fertilizing, the irrigation system is operated, the fertilization pump 29 is started, and the water and fertilizer mixing circulating system is operated, namely irrigation water enters the fertilization inlet pipeline 17, the fertilization pump 29, the fertilizer absorption system (an A # fertilizer absorber 19, a B # fertilizer absorber 20, a C # fertilizer absorber 21, a monitoring fertilizer absorber 22, an A # fertilizer absorber electromagnetic valve 24, a B # fertilizer absorber electromagnetic valve 25, a C # fertilizer absorber electromagnetic valve 26, a monitoring fertilizer absorber electromagnetic valve 27) and the fertilization outlet pipeline 14 and enters the irrigation system through 13 paths of an irrigation main pipe to finish water and fertilizer circulating mixing; meanwhile, an A # fertilizer storage tank electromagnetic valve 10, a B # fertilizer storage tank electromagnetic valve 11 and a C # fertilizer storage tank electromagnetic valve 12 are opened, fertilizer liquid respectively enters an A # fertilizer absorber 19, a B # fertilizer absorber 20 and a C # fertilizer absorber 21 from a liquid A # fertilizer storage tank 7, a B # fertilizer storage tank 8 and a C # fertilizer storage tank 9, the A # fertilizer absorber electromagnetic valve 24, the B # fertilizer absorber electromagnetic valve 25 and the C # fertilizer absorber electromagnetic valve 26 are opened, the fertilizer liquid enters a water and fertilizer circulating system, and then the fertilizer is applied along with water through a water outlet electromagnetic valve 30, an irrigation main pipeline 31, a filter 32, a branch pipeline 33 and a branch pipeline electromagnetic valve 34.

When the EC/PH monitoring system operates, the nutrient solution sequentially passes through the detection inlet pipeline 18 and the monitoring sampling box 23, is monitored by the EC sensor 15 and the PH sensor 16, and then passes through the detection outlet pipeline 28, the monitoring fertilizer absorber electromagnetic valve 27, the monitoring fertilizer absorber 22, the fertilization outlet pipeline 14 and the irrigation main pipeline 13 to enter the irrigation system.

Although the present disclosure has been described with reference to specific embodiments, it should be understood that the scope of the present disclosure is not limited thereto, and those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit and scope of the present disclosure.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (8)

1. A by-pass type water and fertilizer integrated machine for injecting fertilizer through branch pipelines is characterized by comprising an irrigation main pipeline, wherein the irrigation main pipeline is connected with an irrigation water pump, the irrigation main pipeline is communicated with a fertilization inlet pipeline, the fertilization inlet pipeline is connected with a fertilization pump, the fertilization pump is connected with a plurality of fertilizer absorbers, each fertilizer absorber is communicated with a fertilizer storage tank, the fertilizer absorbers are arranged in parallel and are connected with a fertilization outlet pipeline, the fertilization outlet pipeline is communicated with the irrigation main pipeline, and the communication point of the fertilization outlet pipeline and the irrigation main pipeline is positioned behind the communication point of the fertilization inlet pipeline and the irrigation main pipeline; the main irrigation pipeline is communicated with a plurality of parallel branch pipelines.

2. The by-pass type water and fertilizer integrated machine for branch pipeline fertilizer injection according to claim 1, wherein a water inlet pressure gauge, a filter, a water inlet electromagnetic valve and a water meter are sequentially arranged at the head end of the main irrigation pipeline, and a water outlet electromagnetic valve and a filter are arranged at the tail end of the main irrigation pipeline.

3. The branch pipeline fertilizer injection by-pass type water and fertilizer all-in-one machine as claimed in claim 1, wherein the irrigation main pipeline is further communicated with a detection inlet pipeline, the detection inlet pipeline is communicated with a monitoring sampling box, and the monitoring sampling box is communicated with a monitoring fertilizer sucking device.

4. The branch pipeline fertilizer injection by-pass type water and fertilizer all-in-one machine as claimed in claim 3, wherein the monitoring fertilizer absorber is also communicated with the fertilizer pump, and the monitoring fertilizer absorber is connected with the fertilizer absorber in parallel.

5. The branch pipeline fertilizer injection by-pass type water and fertilizer all-in-one machine as claimed in claim 3, wherein the monitoring sampling box is provided with an EC sensor and a PH sensor.

6. The branch pipeline fertilizer injection by-pass type water and fertilizer all-in-one machine as claimed in claim 3, wherein the communication point of the detection inlet pipeline and the irrigation main pipeline is positioned in front of the communication point of the fertilization inlet pipeline and the irrigation main pipeline.

7. The by-pass type water and fertilizer all-in-one machine for injecting fertilizer through a branch pipeline as claimed in claim 1, wherein each fertilizer storage tank is provided with a fertilizer storage tank electromagnetic valve, and the bottom of each fertilizer absorber is provided with a fertilizer absorber electromagnetic valve.

8. The integrated machine of claim 1, wherein each branch line is provided with a branch line solenoid valve.

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