CN107616074B

CN107616074B - Water-collecting irrigation system

Info

Publication number: CN107616074B
Application number: CN201710944623.8A
Authority: CN
Inventors: 谢英健
Original assignee: Taizhou Zhongzhi Yingjian Machinery Automation Co ltd
Current assignee: Taizhou Zhongzhi Yingjian Machinery Automation Co.,Ltd.
Priority date: 2017-09-30
Filing date: 2017-09-30
Publication date: 2020-04-10
Anticipated expiration: 2037-09-30
Also published as: CN107616074A

Abstract

The invention discloses a water collecting irrigation system, and belongs to the technical field of water collecting irrigation. The water tank is arranged in the main rod; the auxiliary rods are installed on the main rod in a staggered mode and are arranged upward relative to the main rod in a cleaning mode, and water guide pipes communicated with the water tank are arranged in the auxiliary rods; the fog water collecting unit comprises a plurality of auxiliary rods, a blade-shaped frame, a fixed end and a fog water absorbing net, wherein the fixed end is positioned at one end of the frame; the frame is of an annular structure and is obliquely and upwards arranged relative to the auxiliary rod; the fog absorption net is fixed with a control unit along the inner ring surface of the frame, the control unit comprises an electromagnetic valve, a water pump, a water level sensor and a processor, the water level sensor is arranged in the water tank, the electromagnetic valve, the water pump and the water level sensor are respectively and electrically connected with the processor, the water pump is positioned at the bottom of the water tank, and the water outlet end of the water pump is communicated with the electromagnetic valve positioned outside the water tank; the drip irrigation pipe is communicated with the electromagnetic valve. The invention has the advantages of strong fog collection and irrigation.

Description

Water-collecting irrigation system

Technical Field

The invention relates to the technical field of water collection irrigation, in particular to a water collection irrigation system.

Background

Technical measures for supplementing the water needed by crops. In order to ensure the normal growth of crops and obtain high and stable yield, the crops must be supplied with sufficient moisture. Under natural conditions, the water requirement of crops cannot be met due to insufficient precipitation or uneven distribution. Therefore, irrigation must be done manually to compensate for the lack of natural rainfall. The world is increasingly short of fresh water resources, and the demand of human beings on food is continuously increased, so that the fresh water resources become the security threats for agricultural development and world food supply. The key point is to solve the problems of limited cultivated land area, shortage of fresh water resources and rising of world grain demands. In regions where water resources are scarce, many farmable fields are located in hills, where water sources and streams are far away, and it is often necessary to build penstocks or use water pumps, but even so, it is not satisfactory. Many plants are irrigated "by the weather", and if they do not rain for a long time, they are usually low in yield or never harvested. Therefore, the demand for the water collecting device is very urgent, and particularly, the water collecting device which can collect dew at night is necessary.

Patent 201410750485.6 discloses a retaining and intelligent irrigation equipment of setting in the gardens, and usable rainwater carries out treegarden irrigation. The device can only collect rainwater, can not collect fog, can only eat by the day, and has limitation.

Patent 201310598099.5 discloses a mist water collecting device capable of collecting moisture in mist water, but it is limited in that the structure can be designed only for small devices, and its mist water collecting area is small, and it is easy to accumulate impurities.

Therefore, a collecting device which can collect fog, has strong collecting capacity and does not accumulate sundries and can be matched with a drip irrigation pipe for irrigation is needed.

Disclosure of Invention

The invention aims to solve the problems and provides a water collecting and irrigating system which has strong collecting capacity, does not accumulate sundries and can be matched with a drip irrigation pipe for irrigation.

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

a catchment irrigation system comprising

The main rod is of a hollow structure and is vertically arranged on the mounting surface, and a water tank is arranged in the main rod;

the auxiliary rods are installed on the main rod in a staggered mode and are arranged upward relative to the main rod in a cleaning mode, and water guide pipes communicated with the water tank are arranged in the auxiliary rods;

the fog collecting unit comprises a plurality of auxiliary rods, a fixed end and a fog absorbing net, wherein the auxiliary rods are arranged on the upper surface of the frame; the frame is of an annular structure and is obliquely and upwards arranged relative to the auxiliary rod; the fog absorbing net is fixed along the inner annular surface of the frame; the outer side of the fixed end is of a threaded structure and can be in threaded connection with the auxiliary rod, the fixed end is provided with a through water guide hole along the axis, one end of the water guide hole, which corresponds to the frame, is funnel-shaped, the maximum end of the funnel corresponds to the end face profile of the fixed end, and the other end of the water guide hole is communicated with a water guide pipe; annular wing plates arranged along the outline of the fog absorbing net are arranged on the frame and the fixed end opposite to the two sides of the fog absorbing net, the wing plates face one side of the fog absorbing net and incline upwards,

the control unit comprises an electromagnetic valve, a water pump, a water level sensor and a processor, wherein the water level sensor is arranged in the water tank, the electromagnetic valve, the water pump and the water level sensor are respectively and electrically connected with the processor, the water pump is positioned at the bottom of the water tank, and the water outlet end of the water pump is communicated with the electromagnetic valve positioned outside the water tank;

and the drip irrigation pipe is communicated with the electromagnetic valve.

The invention can use the fog collection unit to collect fog and flow into the water tank, and uses the control unit to irrigate plants through the drip irrigation pipe, and the invention has intelligent integration, integrates fog collection and irrigation, and can meet the use in various occasions. The invention is a tree structure, imitates trees, and the color and shape of the shape can be sprayed with devices with different colors and shapes according to the surrounding vegetation; this may be well integrated into the landscape forming part of the park. The fog absorbing net can be arranged in a plurality of forms as 'leaves', and the shape and the size can be set according to simulated vegetation, such as lagerstroemia speciosa, coral trees and the like. Wherein, the fog water forms water drops in the fog water absorption net, and the water drops are converged into the water guide holes through the annular wing plate and flow into the water tank through the water guide pipe. And plants are irrigated through a drip irrigation pipe.

Preferably, the water tank has a cylindrical structure.

Preferably, the auxiliary rod is arranged at an angle of 45-90 degrees relative to the main rod.

Preferably, polytetrafluoroethylene coatings are arranged on the inner wall of the water guide pipe, the inner ring surface of the frame, the water guide hole and the annular wing plate. Thus, a smooth hydrophobic surface can be formed, and water drops can be collected conveniently.

Preferably, the solar energy electric water heater further comprises a solar panel which is arranged on the top of the support rod and is electrically connected with the processor. Thus being convenient to be installed and used at any place outdoors.

Preferably, the drip irrigation pipe comprises a pipe body, the pipe body comprises a main pipe body provided with a main flow passage and a secondary pipe body provided with a secondary flow passage, and the secondary pipe body is communicated with the main pipe body; the irrigation unit comprises an irrigation cavity, thin pipelines, a buffer cavity and a communicating part, the buffer cavity is positioned at the left side and the right side of the irrigation cavity and symmetrically arranged, the thin pipelines are arranged in a zigzag manner and communicated with the irrigation cavity and the buffer cavity, and the buffer cavity is connected with the communicating part through the communicating part and communicated with the main runner; the irrigation cavity is provided with an outer water outlet exposed out of the pipe body. The auxiliary pipe body comprises an upper pipe body and a lower pipe body which have the same size and are both plane adhesive tapes; the irrigation cavity, the thin pipeline, the buffer cavity and the communicating part are formed by attaching grooves which are arranged on the corresponding attaching end surfaces of the upper pipe body and the lower pipe body; the depth of the groove is not more than the thickness of the plane adhesive tape, and the irrigation cavity is of a cuboid structure; and a thin copper wire is arranged between the upper pipe body and the lower pipe body and is arranged along the central connecting line of the irrigation cavity and the buffer cavity.

Drip irrigation the pipe and set up and irrigate chamber and cushion chamber and can effectively accomplish effectively and drip irrigation, wherein be provided with the copper sheet in the cushion chamber, can generate the cupric oxide with aquatic oxygen to the solution that contains the cupric oxide is generated, thereby it forms the earth region that contains the cupric oxide to restrain the outer delivery port of crop root system blockage to drip irrigation the play of play water outlet, here the copper sheet can play and cushion the entering water. The water outlet can be arranged very small in comparison with the prior art, namely, the water outlet is used as a drip irrigation outlet and can be enlarged as required, and meanwhile, the water outlet amount can still be controlled, so that the water outlet can be relatively different from the prior art, and the blocking phenomenon caused by the small drip irrigation outlet is reduced.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. the invention is a tree structure, imitates trees, and the color and shape of the shape can be sprayed with devices with different colors and shapes according to the surrounding vegetation; this may be well integrated into the landscape forming part of the park. The fog absorbing net can be arranged in a plurality of forms as 'leaves', and the shape and the size can be set according to simulated vegetation, such as lagerstroemia speciosa, coral trees and the like. Wherein, the fog water forms water drops in the fog water absorption net, and the water drops are converged into the water guide holes through the annular wing plate and flow into the water tank through the water guide pipe. And plants are irrigated through a drip irrigation pipe.

2. The copper sheet is arranged in the drip irrigation pipe buffer cavity and can generate copper oxide with oxygen in water so as to generate solution containing the copper oxide, and a soil area containing the copper oxide is formed at the outlet of the drip irrigation pipe so as to inhibit the root system of crops from blocking the outer water outlet, wherein the copper sheet can buffer the entering water.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the fog collection unit of the present invention.

Fig. 3 is a schematic cross-sectional view a-a of fig. 2.

Fig. 4 is a schematic view of the drip irrigation tube structure of the present invention.

In the attached drawing, 1-a main rod, 2-an auxiliary rod, 3-a fog water collecting unit, 4-a water tank, 5-a water guide pipe, 31-a frame, 32-a fog water absorbing net, 33-a fixed end, 34-an annular wing plate, 10-a drip irrigation pipe, 11-a main pipe body, 12-an auxiliary pipe body, 13-a communicating part, 14-a buffer cavity, 15-a thin pipeline, 16-an irrigation cavity, 17-a copper sheet and 18-an outer water outlet.

Detailed Description

The following further describes the embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 3, a catchment irrigation system includes a main rod, a sub-rod, a mist water collecting unit, a control unit and a drip irrigation pipe. The fog collection device is of a tree structure, the main rod simulates a tree trunk, the auxiliary rod simulates branches and trunks of a tree, and the fog collection unit simulates leaves of the tree. The external color and shape of the device can be sprayed with devices with different colors and shapes according to the surrounding vegetation; this may be well integrated into the landscape forming part of the park. The fog absorbing nets can be arranged in a plurality of forms as 'leaves', the shapes and the sizes can be arranged according to simulation, for example, the main rod, the auxiliary rod and the fog collecting unit are correspondingly arranged to be in the shape of a coral tree.

The mobile jib is hollow structure, erects the setting on the installation face, is equipped with the water tank in the mobile jib. The auxiliary rods are installed on the main rod in a staggered mode and are arranged upward relative to the main rod in a cleaning mode, and water guide pipes communicated with the water tank are arranged in the auxiliary rods. The auxiliary rod is arranged at an angle of 60 degrees relative to the main rod. The water tank is of a cylindrical structure.

The fog water collecting unit comprises a plurality of fog water collecting units and is arranged on the auxiliary rod, and each fog water collecting unit comprises a blade-shaped frame, a fixed end positioned at one end of the frame and a fog water absorbing net arranged on the frame. The frame is of an annular structure and is obliquely and upwards arranged relative to the auxiliary rod; the fog absorbing net is fixed along the inner ring surface of the frame; the outside of the fixed end is of a thread structure and can be in threaded connection with the auxiliary rod. The fixed end is provided with a through water guide hole along the axis, one end of the water guide hole corresponding to the frame is in a funnel-shaped arrangement, the maximum end of the funnel corresponds to the end face profile of the fixed end, and the other end of the water guide hole is communicated with a water guide pipe. And annular wing plates arranged along the contour of the fog absorbing net are arranged on the frame and the fixed end opposite to the two sides of the fog absorbing net, and the wing plates face one side of the fog absorbing net and are inclined upwards. And polytetrafluoroethylene coatings are arranged on the inner wall of the water guide pipe, the inner ring surface of the frame, the water guide holes and the annular wing plate. Thus, a smooth hydrophobic surface can be formed, and water drops can be collected conveniently.

The control unit comprises an electromagnetic valve, a water pump, a water level sensor and a processor, the water level sensor is arranged in the water tank, the electromagnetic valve, the water pump and the water level sensor are respectively and electrically connected with the processor, the water pump is positioned at the bottom of the water tank, and the water outlet end of the water pump is communicated with the electromagnetic valve positioned outside the water tank. The drip irrigation pipe is communicated with the electromagnetic valve. The solar energy battery plate is arranged on the top of the support rod and is electrically connected with the processor. Thus being convenient to be installed and used at any place outdoors.

As shown in fig. 4, the pipe includes a pipe body, the pipe body includes a main pipe body provided with a main flow passage and a sub pipe body provided with a sub flow passage, and the sub pipe body is communicated with the main pipe body. A plurality of irrigation units are arranged on the auxiliary pipe body along the auxiliary flow channel direction, each irrigation unit comprises an irrigation cavity, thin pipelines, buffer cavities and communicating parts, the buffer cavities are located on the left side and the right side of the irrigation cavity and symmetrically arranged, the thin pipelines are arranged in a zigzag mode and communicated with the irrigation cavities and the buffer cavities, and the buffer cavities are connected with the communicating parts through the communicating parts to communicate with the main flow channel. The irrigation cavity is provided with an outer water outlet exposed out of the pipe body. The auxiliary pipe body comprises an upper pipe body and a lower pipe body which have the same size and are both plane adhesive tapes; the irrigation cavity, the thin pipeline, the buffer cavity and the communicating part are formed by laminating grooves on corresponding laminating end faces of the upper pipe body and the lower pipe body. The depth of the groove is not more than the thickness of the plane adhesive tape, and the irrigation cavity is of a cuboid structure; and a thin copper wire is arranged between the upper pipe body and the lower pipe body and is arranged along the central connecting line of the irrigation cavity and the buffer cavity.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.

Claims

1. A catchment irrigation system, characterized by: comprises that

the fog collecting unit comprises a plurality of auxiliary rods, a fixed end and a fog absorbing net, wherein the auxiliary rods are arranged on the upper surface of the frame; the frame is of an annular structure and is obliquely and upwards arranged relative to the auxiliary rod; the fog absorbing net is fixed along the inner annular surface of the frame; the outer side of the fixed end is of a threaded structure and can be in threaded connection with the auxiliary rod, the fixed end is provided with a through water guide hole along the axis, one end of the water guide hole, which corresponds to the frame, is funnel-shaped, the maximum end of the funnel corresponds to the end face profile of the fixed end, and the other end of the water guide hole is communicated with a water guide pipe; annular wing plates arranged along the outline of the fog absorbing net are arranged on the frame and the fixed end opposite to the two sides of the fog absorbing net, and the wing plates face one side of the fog absorbing net and incline upwards;

the drip irrigation pipe is communicated with the electromagnetic valve;

the water tank is of a cylindrical structure; the auxiliary rod is arranged at an angle of 45-90 degrees relative to the main rod; polytetrafluoroethylene coatings are arranged on the inner wall of the water guide pipe, the inner ring surface of the frame, the water guide holes and the annular wing plate; the solar panel is arranged on the top of the supporting rod and is electrically connected with the processor; the drip irrigation pipe comprises a pipe body, the pipe body comprises a main pipe body provided with a main flow passage and an auxiliary pipe body provided with an auxiliary flow passage, and the auxiliary pipe body is communicated with the main pipe body; the irrigation unit comprises an irrigation cavity, thin pipelines, a buffer cavity and a communicating part, the buffer cavity is positioned at the left side and the right side of the irrigation cavity and symmetrically arranged, the thin pipelines are arranged in a zigzag manner and communicated with the irrigation cavity and the buffer cavity, and the buffer cavity is connected with the communicating part through the communicating part and communicated with the main runner; an outer water outlet exposed out of the pipe body is arranged on the irrigation cavity; the auxiliary pipe body comprises an upper pipe body and a lower pipe body which have the same size and are both plane adhesive tapes; the irrigation cavity, the thin pipeline, the buffer cavity and the communicating part are formed by attaching grooves which are arranged on the corresponding attaching end surfaces of the upper pipe body and the lower pipe body; the depth of the groove is not more than the thickness of the plane adhesive tape, and the irrigation cavity is of a cuboid structure; and a thin copper wire is arranged between the upper pipe body and the lower pipe body and is arranged along the central connecting line of the irrigation cavity and the buffer cavity.