CN211322389U

CN211322389U - Buried automatic telescopic irrigation device

Info

Publication number: CN211322389U
Application number: CN201922377799.7U
Authority: CN
Inventors: 周来升
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2020-08-25
Anticipated expiration: 2029-12-26

Abstract

The utility model discloses a buried automatic telescopic irrigation device, which comprises a water pump, a wireless remote control switch, a remote controller, a pressurizing tank, a water delivery pipe, a main pipe, an auxiliary pipe, a main valve, a main pipe valve, an auxiliary pipe valve, a drain valve A, a drain valve B, a sleeve, a lifting pipe and a soil drilling head, wherein the main pipe and the auxiliary pipe at the positions of the main pipe valve, the auxiliary pipe valve, the drain valve A, the drain valve B, the lifting pipe and the soil drilling head are exposed out of the ground, so that people can operate the valves conveniently; the lifting pipe can be contracted after the sprinkling irrigation is finished and is completely buried underground, so that the agricultural cultivation and the harvesting are not influenced; the sprinkling irrigation device does not need to be integrally disassembled, so that the complicated operation of laying and recovering the pipeline every time is avoided; and simultaneously, the utility model discloses a most pipeline buries in the underground, reduces the ageing speed of pipeline.

Description

Buried automatic telescopic irrigation device

Technical Field

The utility model belongs to the technical field of irrigate, especially relate to a bury automatic flexible irrigation equipment of formula.

Background

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 requirement of crops on water content is often not met due to insufficient precipitation or uneven distribution. Therefore, irrigation must be done manually to compensate for the lack of natural rainfall.

The spray irrigation is an irrigation mode with more applications, but the existing spray irrigation is mainly applied to plastic greenhouses and is rarely applied to open-air agricultural irrigation. The main reasons are as follows: at present, the sprinkling irrigation mainly adopts a fixed sprinkling irrigation water supply device, a sprinkling irrigation head is fixed on a water supply pipeline, and the fixed sprinkling irrigation device has the following defects: as the spray irrigation device is positioned on the ground surface, agricultural cultivation and harvesting are affected, and land resources are wasted; after the sprinkling irrigation is accomplished, need tear sprinkling irrigation equipment open, lay the pipeline at every turn and withdraw the pipeline labour hard, extravagant a large amount of labours, the ageing resistance can be poor moreover.

Disclosure of Invention

An object of the utility model is to provide a bury automatic flexible irrigation equipment of formula, the device simple structure makes the simple installation, and convenient to use is swift, can effectively solve the problem that exists among the background art, has high use value.

The purpose of the utility model is realized like this: a buried automatic telescopic irrigation device comprises a water pump, a wireless remote control switch, a remote controller, a pressurizing tank, a water conveying pipe, a main pipe, an auxiliary pipe, a main valve, a main pipe valve, an auxiliary pipe valve, a drain valve A, a drain valve B, a sleeve, a lifting pipe and a soil drilling head, wherein the water pump is installed in a well, the water pump is connected with the wireless remote control switch, the wireless remote control switch is wirelessly connected with the remote controller, the water pump is connected with the pressurizing tank through a pipeline, the pressurizing tank is connected with the main pipe through the water conveying pipe, the main valve is installed at the connecting position of the main pipe and the water conveying pipe, and a backflow port is formed in the; the main pipe is connected to the lower end of the sleeve, the sleeve is arranged below the ground, the top of the sleeve is provided with a top outlet, the lower part and the upper part in the sleeve are respectively and fixedly provided with a lower limiting ring and an upper limiting ring, a piston is arranged in a cavity between the lower limiting ring and the upper limiting ring, a lifting pipe is mounted on the piston and penetrates through the inner ring and the top outlet of the upper limiting ring, the soil drilling head is mounted at the upper end part of the lifting pipe and is of a conical structure, and the top of the soil drilling head is provided with a water outlet;

a pressure cavity is formed between the upper limiting ring and a top plate of the sleeve, an auxiliary pipe is arranged on the pressure cavity, and the other end of the auxiliary pipe is connected with the reflux port;

a main pipe pipeline between the backflow port and the sleeve is provided with a water outlet A, the water outlet A is provided with a drain valve A, and a main pipe valve is arranged on the main pipe pipeline between the water outlet A and the backflow port;

and a water outlet B is arranged on the auxiliary pipe, a drain valve B is arranged on the water outlet B, and an auxiliary pipe valve is arranged on an auxiliary pipe pipeline between the water outlet B and the backflow port.

The pipe diameter of the main pipe is 3-5 times of that of the secondary pipe.

And the piston is provided with a through hole matched with the inner diameter of the pipeline of the lifting pipe.

The main pipe, the auxiliary pipe and the water delivery pipe are all provided with elbows matched with the pipe diameters at the turning positions.

The upper end of the lifting pipe is provided with an external thread, and an internal thread matched with the external thread is arranged in the soil drilling head.

The diameter of the main pipe is the same as that of the sleeve.

The inner diameter of the top outlet is the same as the outer diameter of the elevator tube.

The water outlet A, the drain valve A, the water outlet B, the drain valve B, the main pipe valve, the auxiliary pipe valve and the backflow port are all arranged on the ground.

The inner diameter of the water outlet is set to be 3-5 mm.

The inner diameters of the lower limiting ring and the upper limiting ring are the same, and the outer diameter of the lifting pipe is 1/2-3/4 of the inner diameter of the upper limiting ring.

The utility model discloses the beneficial effect who produces is:

firstly, the utility model discloses can open, close through remote controller remote control water pump, reduce the number of times that the personnel come and go between field and water well, reduce operation personnel intensity of labour.

Secondly, the utility model discloses can be through adjusting corresponding person in charge valve, auxiliary valve, drain valve A, drain valve B, promote the purpose that the piston reaches the lift of fall way through the water conservancy of being responsible for or auxiliary, convenient operation does not need additionally to drop into unnecessary jacking equipment, and the complete equipment drops into for a short time, convenient to popularize and use.

Thirdly, the utility model discloses a main part equipment all sets up in the below ground, only makes the person in charge of valve, auxiliary pipe valve, drain valve A, drain valve B, outlet A, outlet B position department, the auxiliary pipe exposes ground, and the people's operation valve of being convenient for, when using, is responsible for valve, auxiliary pipe valve, drain valve A, drain valve B, outlet A, the person in charge of outlet B position department, the auxiliary pipe all installs in field ground, does not influence agricultural cultivation and reaps.

Fourthly, the lifting pipe of the utility model can be contracted after the sprinkling irrigation is finished, and is completely buried underground, so that the agricultural cultivation and harvesting are not influenced, and the land resource is saved; the sprinkling irrigation device does not need to be disassembled, so that the complex operation of laying and recovering the pipeline each time is avoided, and the labor is saved; and simultaneously, the utility model discloses a most pipeline buries in the underground, also can improve the ageing resistance intensity of pipeline.

Drawings

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

Fig. 2 is a schematic perspective view of the main pipe and the auxiliary pipe of the present invention.

Fig. 3 is a schematic sectional view of the casing according to the present invention.

Fig. 4 is a schematic view of the cross-sectional structure of the earth-boring bit of the present invention.

Fig. 5 is a schematic cross-sectional view of the sleeve at a location when the elevator tube is not installed.

FIG. 6 is a schematic view showing the direction of water flow in the main pipe and the sub pipe when the elevating pipe is lifted.

FIG. 7 is a schematic view showing the direction of water flow in the main pipe and the sub-pipe when the elevator tube is descending.

In the figure: 1. the water pump 2, the wireless remote control switch 3, the remote controller 4, the pressure boost tank 5, the water delivery pipe 6, the main pipe 7, the auxiliary pipe 8, the main valve 9, the main pipe valve 10, the auxiliary pipe valve 11, the drain valve A12, the drain valve B13, the sleeve 14, the lifting pipe 15, the earth drilling head 16, the water well 17, the return port 18, the top outlet 19, the lower limiting ring 20, the upper limiting ring 21, the piston 22, the pressure cavity 23, the water outlet A24, the water outlet B25, the elbow 26 and the water outlet.

The arrows in fig. 6 and 7 indicate the direction of water flow.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings.

Example 1

As shown in fig. 1-7, a buried automatic telescopic irrigation device comprises a water pump 1, a wireless remote control switch 2, a remote controller 3, a pressure-increasing tank 4, a water pipe 5, a main pipe 6, an auxiliary pipe 7, a main valve 8, a main pipe valve 9, an auxiliary pipe valve 10, a drain valve a11, a drain valve B12, a casing 13, a lifting pipe 14 and a soil drilling head 15, wherein the water pump 1 is installed in a water well 16, the water pump 1 is connected to the wireless remote control switch 2, the wireless remote control switch 2 is wirelessly connected to the remote controller 3, the water pump 1 is connected to the pressure-increasing tank 4 through a pipeline, the pressure-increasing tank 4 is connected to the main pipe 6 through the water pipe 5, the main valve 8 is installed at the connection position of the main pipe 6 and the water pipe 5, and the main pipe; the main pipe 6 is connected to the lower end of a sleeve pipe 13, the sleeve pipe 13 is arranged below the ground, the top of the sleeve pipe 13 is provided with a top outlet 18, the lower part and the upper part in the sleeve pipe 13 are respectively and fixedly provided with a lower limit ring 19 and an upper limit ring 20, a piston 21 is arranged in a cavity between the lower limit ring 19 and the upper limit ring 20, an elevating pipe 14 is arranged on the piston 21, the elevating pipe 14 penetrates through the inner ring and the top outlet 18 of the upper limit ring 20, the earth drilling head 15 is arranged at the upper end part of the elevating pipe 14, the earth drilling head 15 is of a conical structure, and the top of the earth drilling head 15 is provided with a water outlet 26;

a pressure cavity 22 is formed between the upper limiting ring 20 and the top plate of the sleeve 13, an auxiliary pipe 7 is arranged on the pressure cavity 22, and the other end of the auxiliary pipe 7 is connected with the return port 17;

a water outlet A23 is arranged on the main pipe 6 pipeline between the return port 17 and the sleeve 13, a water discharge valve A11 is arranged on the water outlet A23, and a main pipe valve 9 is arranged on the main pipe 6 pipeline between the water outlet A23 and the return port 17;

a water outlet B24 is arranged on the auxiliary pipe 7, a water discharge valve B12 is arranged on the water outlet B24, and an auxiliary pipe valve 10 is arranged on the pipeline of the auxiliary pipe 7 between the water outlet B24 and the return port 17.

The pipe diameter of the main pipe 6 is four times of that of the secondary pipe 7.

The piston 21 is provided with a through hole which is matched with the inner diameter of the pipeline of the lifting pipe 14.

The main pipe 6, the auxiliary pipe 7 and the water delivery pipe 5 are all provided with elbows 25 matched with the pipe diameters at the turning positions.

The upper end of the lifting pipe 14 is provided with an external thread, and the soil drilling head 15 is internally provided with an internal thread matched with the external thread.

The main pipe 6 has the same diameter as the sleeve 13.

The top outlet 18 has an inner diameter that is the same as the outer diameter of the elevator tube 14.

The water outlet A23, the water discharge valve A11, the water outlet B24, the water discharge valve 12B, the main pipe valve 9, the auxiliary pipe valve 10 and the return port 17 are all arranged on the ground.

The inner diameter of the water outlet 26 is set to be 4 mm.

The lower stop ring 19 has the same inner diameter as the upper stop ring 20 and the outer diameter of the elevator tube 14 is set at 1/2 times the inner diameter of the upper stop ring 20.

The utility model discloses when using: during irrigation operation, a main valve is opened, a main pipe valve is opened, a drain valve A is closed, a drain valve B is opened, an auxiliary pipe valve is closed, then an operator starts a water pump through a remote controller, the water pump pumps water from a water well into a pressurizing tank, the pressurizing tank pressurizes the water and conveys the water flow to a main pipe through a water conveying pipe, the water flow flows through the main pipe to enter a sleeve, then the water flow can continuously enter a lifting pipe and is discharged from a water outlet of a drill bit, the soil around the drill bit can be wetted by the water discharged from the water outlet, and the drill bit can be conveniently ejected out of the ground; when rivers were followed the delivery port discharge, because water pressure is great in the main pipe, rivers can promote piston upward movement, and the water on piston upper portion (the utility model discloses when using for the first time, piston upper portion is the air) can get into the pressure chamber from the inner ring of last spacing ring, then through the auxiliary pipe, by outlet B discharge, the piston can promote the fall way upward movement always, and the piston moves to last spacing ring position department until. After the lifting pipe is completely jacked up, the main valve is closed, the soil drilling head is taken down from the lifting pipe, the spray head is replaced, and then the main valve is opened, so that the sprinkling irrigation operation can be carried out on the land.

After irrigation is finished, the main valve is closed, the spray head is taken down, and the soil drilling head is replaced. And then, closing the main pipe valve, opening the drain valve A, closing the drain valve B, opening the auxiliary pipe valve, and finally opening the main valve, wherein at the moment, the water flow of the water pipe enters the pressure cavity through the auxiliary pipe, the piston is pushed to move downwards until the piston abuts against the lower limiting ring, and the lifting pipe is completely buried underground. During the downward movement of the piston, water at the lower part of the piston is pressed out of the water outlet on the main pipe. After the lifting pipe is completely collected, the water pump is turned off through the remote controller, and the main valve is turned off at the same time.

In general, the utility model has the advantages of not affecting agricultural cultivation and harvesting; and simultaneously, the utility model discloses also need not to tear sprinkling irrigation equipment open, avoid laying the pipeline at every turn and withdraw the loaded down with trivial details operation of pipeline, practice thrift the labour.

Claims

1. A buried automatic telescopic irrigation device comprises a water pump, a wireless remote control switch, a remote controller, a pressurizing tank, a water conveying pipe, a main pipe, an auxiliary pipe, a main valve, a main pipe valve, an auxiliary pipe valve, a drain valve A, a drain valve B, a sleeve, a lifting pipe and a soil drilling head, wherein the water pump is installed in a well, the water pump is connected with the wireless remote control switch, the wireless remote control switch is wirelessly connected with the remote controller, the water pump is connected with the pressurizing tank through a pipeline, the pressurizing tank is connected with the main pipe through the water conveying pipe, the main valve is installed at the connecting position of the main pipe and the water conveying pipe, and a backflow port is formed in the; the main pipe is connected to the lower end of the sleeve, and is characterized in that: the sleeve is arranged below the ground, a top outlet is arranged at the top of the sleeve, a lower limiting ring and an upper limiting ring are fixedly arranged at the lower part and the upper part in the sleeve respectively, a piston is arranged in a cavity between the lower limiting ring and the upper limiting ring, a lifting pipe is arranged on the piston and penetrates through the inner ring and the top outlet of the upper limiting ring, the soil drilling head is arranged at the upper end part of the lifting pipe, the soil drilling head is of a conical structure, and a water outlet is arranged at the top of the soil drilling head;

2. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the pipe diameter of the main pipe is 3-5 times of that of the secondary pipe.

3. A buried automatic telescopic irrigation device according to claim 1, characterized in that: and the piston is provided with a through hole matched with the inner diameter of the pipeline of the lifting pipe.

4. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the main pipe, the auxiliary pipe and the water delivery pipe are all provided with elbows matched with the pipe diameters at the turning positions.

5. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the upper end of the lifting pipe is provided with an external thread, and an internal thread matched with the external thread is arranged in the soil drilling head.

6. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the diameter of the main pipe is the same as that of the sleeve.

7. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the inner diameter of the top outlet is the same as the outer diameter of the elevator tube.

8. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the water outlet A, the drain valve A, the water outlet B, the drain valve B, the main pipe valve, the auxiliary pipe valve and the backflow port are all arranged on the ground.

9. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the inner diameter of the water outlet is set to be 3-5 mm.

10. A buried automatic telescopic irrigation device according to claim 1, characterized in that: the inner diameters of the lower limiting ring and the upper limiting ring are the same, and the outer diameter of the lifting pipe is 1/2-3/4 of the inner diameter of the upper limiting ring.