CN113197056A

CN113197056A - Hydraulic engineering uses intelligent irrigation equipment

Info

Publication number: CN113197056A
Application number: CN202110392380.8A
Authority: CN
Inventors: 孙宇
Original assignee: Jiangsu College of Safety Technology
Current assignee: Jiangsu College of Safety Technology
Priority date: 2021-04-13
Filing date: 2021-04-13
Publication date: 2021-08-03

Abstract

The invention discloses an intelligent irrigation device for water conservancy projects, which can form small-range centralized irrigation on crop plants, save water resources, ensure that most of water acts on the plants, and ensure that irrigation water does not act on each part, particularly roots of the plants under the influence of plant leaves, and is characterized in that one ends of a plurality of groups of C-shaped pipes are equidistantly arranged on a driving box through connecting shafts, one ends of the connecting shafts and one ends of the plurality of groups of C-shaped pipes are correspondingly connected one by one, the other ends of the connecting shafts penetrate through the driving box and extend inwards in a driving way, a transmission gear is fixedly arranged at the other end of the connecting shaft, the transmission gears are connected through a transmission chain, each group of C-shaped pipes are formed by connecting a plurality of C-shaped pipes which are communicated with one another, the C-shaped pipes are of a symmetrical structure, and two ends of the C-shaped pipes are bent by 90 degrees in the same direction to form a sliding pipe, one end of the L-shaped connecting pipe is connected with the end part of the sliding pipe through a height locking sleeve.

Description

Hydraulic engineering uses intelligent irrigation equipment

Technical Field

The invention discloses an intelligent irrigation device for hydraulic engineering, relates to a device for irrigating crop plants, and belongs to the technical field of agricultural production. In particular to a device which can form small-range centralized irrigation on crop plants, save water resources, ensure most of water to act on the plants and ensure that the irrigation water is not influenced by plant leaves and acts on each part of the plants, particularly roots.

Background

At present when irrigating big-arch shelter farming plant in hydraulic engineering, the direction down shower nozzle that generally adopts to erect to spread all over the big-arch shelter is irrigated concentratedly, but this kind of sprinkling irrigation mode, because the angle between shower nozzle and plant is fixed, simultaneously because the shower nozzle is located the top of irrigating the plant, lead to the very big part of moisture of irrigation to be blockked by the upper strata blade of farming plant and absorb, lead to irrigating moisture to be difficult to the root department of using the plant bottom, including the scope of irrigation big and wide, very big some irrigation water still spatters after using near the plant on the soil of keeping away from the plant, cause the waste of a part of water resource, influence the actual effective action rate of irrigation water.

Notice No. CN209710911U discloses a watering device for greenhouse irrigation, including fixing base and folding watering pole, the connecting pipe is passed through at the top of fixing base and is installed at the greenhouse top, the bottom welding guide rail pole of fixing base, all install the outer wall both sides of fixing base folding watering pole, this irrigation equipment can adjust its scope of action of irrigating, nevertheless because the high influence when irrigating leads to being difficult to guarantee during the irrigation that moisture is used to root of plant department, and a large amount of water is blockked by plant upper leaf piece, and because the scope of action of irrigating is big simultaneously, leads to some irrigation water to spray the soil department of keeping away from the plant, causes the waste of water resource.

Disclosure of Invention

In order to improve the situation, the intelligent irrigation device for the hydraulic engineering provided by the invention can be used for performing small-range centralized irrigation on crop plants, saving water resources, ensuring that most of water acts on the plants, and ensuring that the irrigation water does not act on each part of the plants, particularly roots of the plants under the influence of plant leaves.

The invention relates to an intelligent irrigation device for hydraulic engineering, which is realized as follows: the invention relates to an intelligent irrigation device for water conservancy projects, which comprises a water pipe, a fixing frame, C-shaped pipes, a spray head, ground inserting nails, a transverse adjusting sleeve, a driving box, a connecting shaft, a clamping groove, a rotary joint, a connecting sleeve, a transverse locking sleeve, an L-shaped connecting pipe, an anti-collision strip, a fixing ring, sliding pipes, a height locking sleeve, a limiting ring, a supporting plate, a transmission chain and transmission gears, wherein one ends of a plurality of groups of C-shaped pipes are equidistantly arranged on the driving box through the connecting shaft, one ends of a plurality of connecting shafts are correspondingly connected with one end of a plurality of groups of C-shaped pipes one by one, the other ends of the connecting shafts penetrate through the driving box and extend inwards, the transmission gears are fixedly arranged at the other ends of the connecting shafts and are connected through the transmission chain, each group of C-shaped pipes is formed by connecting a plurality of C-shaped pipes which are communicated with one another, the C-shaped pipes are of a symmetrical structure, and the two ends of the C-shaped pipes are bent in the same direction by 90 degrees to form the sliding pipes, one end of the L-shaped connecting pipe is connected with the end part of the sliding pipe through a height lock sleeve, the other end of the L-shaped connecting pipe is provided with a transverse adjusting sleeve through a transverse lock sleeve and is arranged in one end of the transverse adjusting sleeve, the other end of the transverse adjusting sleeve is internally provided with an adjacent L-shaped connecting pipe through a transverse lock sleeve, the upper side and the lower side of the middle part of the C-shaped pipe are both provided with anti-collision strips, the middle part of the C-shaped pipe is provided with a plurality of spray heads at equal intervals on the side wall close to the sliding pipe, an earth inserting nail is arranged between two adjacent C-shaped pipes of each group of C-shaped pipes and is sleeved on one end of the C-shaped pipe close to the rotary joint through a limiting ring, the earth inserting nail is fixedly arranged at the bottom of the limiting ring, a supporting plate is fixedly arranged at the top of the earth inserting nail, a conical tip structure is arranged at the bottom of the earth inserting nail, the other ends of the groups of the C-shaped pipes are arranged on a fixing frame, and is provided with a plurality of clamping grooves at equal intervals on the fixing frame, the clamping grooves are arranged on the plurality of groups of C-shaped pipes in a one-to-one correspondence mode through the rotary joints, one ends of the rotary joints are communicated with the C-shaped pipes, and the other ends of the rotary joints are arranged on the water delivery pipe and are communicated with the water delivery pipe.

Advantageous effects

First, can form the centralized irrigation of minizone to farming plants, guarantee on most water acts the plant when the water economy resource.

And secondly, the swing type irrigation can ensure that irrigation water is not influenced by plant leaves and acts on each part of the plant, particularly the root.

And thirdly, the irrigation distance and height can be adjusted to meet the irrigation requirements of different plants.

Drawings

Fig. 1 is a three-dimensional structure diagram of an intelligent irrigation device for hydraulic engineering according to the present invention;

fig. 2 is a top view of an intelligent irrigation device for hydraulic engineering according to the present invention;

FIG. 3 is a perspective view of a C-shaped pipe of an intelligent irrigation device for hydraulic engineering according to the present invention;

FIG. 4 is a three-dimensional structure diagram of a ground nail of the intelligent irrigation device for water conservancy projects;

FIG. 5 is a schematic structural diagram of a driving box of an intelligent irrigation device for hydraulic engineering according to the present invention;

fig. 6 is a schematic structural diagram of an intelligent irrigation device for hydraulic engineering in use.

In the attached drawings

Wherein the method comprises the following steps: the water conveying pipe comprises a water conveying pipe (1), a fixing frame (2), a C-shaped pipe (3), a spray head (4), a ground inserting nail (5), a transverse adjusting sleeve (6), a driving box (7), a connecting shaft (8), a clamping groove (9), a rotary joint (10), a connecting sleeve (11), a transverse locking sleeve (12), an L-shaped connecting pipe (13), an anti-collision strip (14), a fixing ring (15), a sliding pipe (16), a high locking sleeve (17), a limiting ring (18), a supporting plate (19), a transmission chain (20), a transmission gear (21) and plants (22).

The specific implementation mode is as follows:

the invention relates to an intelligent irrigation device for hydraulic engineering, which is realized as follows: the invention relates to an intelligent irrigation device for water conservancy projects, which consists of a water delivery pipe (1), a fixing frame (2), C-shaped pipes (3), spray heads (4), ground inserting nails (5), a transverse adjusting sleeve (6), a driving box (7), connecting shafts (8), clamping grooves (9), rotary joints (10), connecting sleeves (11), transverse locking sleeves (12), L-shaped connecting pipes (13), anti-collision strips (14), fixing rings (15), sliding pipes (16), height locking sleeves (17), limiting rings (18), supporting plates (19), transmission chains (20) and transmission gears (21), wherein one ends of a plurality of groups of C-shaped pipes (3) are equidistantly arranged on the driving box (7) through the connecting shafts (8), one ends of a plurality of connecting shafts (8) and one end of a plurality of groups of C-shaped pipes (3) are correspondingly connected one by one to one, and the other ends of the connecting shafts (8) pass through the driving box (7) and extend inwards, a transmission gear (21) is fixedly arranged at the other end of the connecting shaft (8), the transmission gears (21) are connected through a transmission chain (20), each group of C-shaped tubes (3) is formed by connecting a plurality of C-shaped tubes (3), the C-shaped tubes (3) are communicated with one another, the C-shaped tubes (3) are of a symmetrical structure, two ends of each C-shaped tube (3) are bent for 90 degrees in the same direction to form a sliding tube (16), one end of an L-shaped connecting tube (13) is connected with the end part of the sliding tube (16) through a height locking sleeve (17), the other end of the L-shaped connecting tube (13) is provided with a transverse adjusting sleeve (6) through a transverse locking sleeve (12) and is arranged in one end of the transverse adjusting sleeve (6), an adjacent L-shaped connecting tube (13) is arranged in the other end of the transverse adjusting sleeve (6) through the transverse locking sleeve (12), and anti-collision strips (14) are arranged on the upper side and the lower side of the middle part of each C-shaped tube (3), a plurality of spray heads (4) are equidistantly arranged on the side wall of the middle part of each C-shaped pipe (3) close to the sliding pipe (16), a ground inserting nail (5) is arranged between two adjacent C-shaped pipes (3) of each group of C-shaped pipes (3), the ground inserting nail (5) is sleeved on one end, close to the rotary joint (10), of each C-shaped pipe (3) through a limiting ring (18), the ground inserting nail (5) is fixedly arranged at the bottom of the limiting ring (18), a supporting plate (19) is fixedly arranged at the top of the ground inserting nail (5), a conical tip structure is arranged at the bottom of the ground inserting nail (5), the other ends of a plurality of groups of C-shaped pipes (3) are arranged on the fixing frame (2), a plurality of clamping grooves (9) are equidistantly arranged on the fixing frame (2), the plurality of groups of C-shaped pipes (3) are correspondingly arranged on the clamping grooves (9) one by one rotating joint (10), one end of the rotating joint (10) is communicated with the C-shaped pipes (3), the other ends of the plurality of rotary joints (10) are arranged on the water pipe (1) and are communicated with the water pipe (1);

when the device is used, plants (22) are correspondingly arranged between two adjacent groups of C-shaped pipes (3), then the device is fixed on soil through inserting ground nails (5), the distance between two adjacent groups of L-shaped connecting pipes (13) can be adjusted through adjusting the transverse lock sleeves (12), further the distance between the adjacent C-shaped pipes (3) is adjusted, the spray heads (4) on the C-shaped pipes (3) are aligned to the plants (22), the sliding pipes (16) at the two ends of the C-shaped pipes (3) and the L-shaped connecting pipes (13) are adjusted through loosening and screwing the height lock sleeves (17), so that the device is suitable for the plants (22) with different heights, an inner machine in a driving box (7) drives a transmission chain (20) to rotate, and therefore each transmission gear (21) is driven to rotate, as the transmission gear (21) is fixed at the other end of the connecting shaft (8), the transmission gear (21) rotates, and simultaneously enables the connecting shaft (8) to drive each group of C-shaped pipes (3) to rotate in a reciprocating manner of 150 degrees, the spray head (4) on the C-shaped pipe (3) is used for rotating and irrigating the plants (22), so that each plant (22) forms a wrapped type surrounding irrigation, water is ensured to be irrigated to each leaf surface of the plant (22), and the rotation speed and the swing amplitude of the driving motor are regulated and controlled by matching with the background intelligent control system, so that the good irrigation on the crop plants (22) can be effectively ensured;

one end of the L-shaped connecting pipe (13) is connected with the end part of the sliding pipe (16) through a height locking sleeve (17), so that the composition length of the sliding pipe (16) at the two ends of the C-shaped pipe (3) and the L-shaped connecting pipe (13) can be adjusted, and the device is suitable for plants (22) with different heights;

the other end of each L-shaped connecting pipe (13) is provided with a transverse adjusting sleeve (6) through a transverse locking sleeve (12), so that the distance between two adjacent groups of L-shaped connecting pipes (13) can be adjusted, the distance between adjacent C-shaped pipes (3) is adapted to the distance between plants (22), the irrigation to the plants (22) is effectively ensured, and the irrigation efficiency is improved;

the design of the anti-collision strips (14) on the upper side and the lower side of the middle part of the C-shaped pipe (3) can protect the spray head (4) in the middle part of the C-shaped pipe (3), effectively prevent the spray head (4) from being shielded by the plant (22) blade to act on each part of the plant (22), particularly the root part, and simultaneously prevent irrigation water from being sprayed onto soil on the far side of the outer ring of the plant (22) during water spraying, thereby effectively improving the effect of the irrigation water on the plant (22);

the design that a plurality of spray heads (4) are equidistantly arranged on the side wall of the middle part of the C-shaped pipe (3) close to the sliding pipe (16) can ensure that most of water acts on plants (22), and simultaneously can reduce the using amount of water during irrigation, thereby effectively saving water resources;

the design that the ground inserting nails (5) are arranged between two adjacent C-shaped pipes (3) of each group of C-shaped pipes (3) can form a plurality of stable fixed points, and the fixing effect of the device on soil is ensured;

the ground inserting nail (5) is sleeved on one end of the C-shaped pipe (3) close to the rotary joint (10) through a limiting ring (18), and can be used for

The design that the supporting plate (19) is fixedly arranged at the top of the ground inserting nail (5) can limit the ground inserting nail (5), so that the ground inserting nail (5) is prevented from excessively penetrating into soil, and the fixing effect on the device is further influenced;

the design that the bottom of the ground inserting nail (5) is provided with a conical tip structure can reduce the resistance of the ground inserting nail (5) when being inserted into soil, and is convenient for the ground inserting nail (5) to go deep into the soil;

the transmission gear (21) rotates, and meanwhile, the connecting shaft (8) drives each group of C-shaped pipes (3) to rotate in a reciprocating mode at 150 degrees, so that the spray heads (4) on the C-shaped pipes (3) can rotate to irrigate the plants (22), and each plant (22) forms wrapped type surrounding irrigation, and water is guaranteed to irrigate each leaf surface of the plants (22);

the design that the rotation speed and the swing amplitude of the driving motor are regulated and controlled by the intelligent control system matched with the background can effectively ensure good irrigation on the crop plants (22), and meanwhile, irrigation water is prevented from being sprayed onto soil on the far side of the outer ring of the plants (22) during water spraying, so that the effective action rate of the irrigation water on the plants (22) is improved;

the purpose that small-range centralized irrigation can be formed for the crop plants (22), most of water is guaranteed to act on the plants (22) while water resources are saved, and irrigation water is guaranteed not to act on all parts of the plants (22) particularly roots under the influence of the leaves of the plants (22).

The above embodiments are preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. It will be appreciated by those skilled in the art that changes may be made without departing from the scope of the invention, and it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

Claims

1. The utility model provides an intelligent irrigation equipment for hydraulic engineering, characterized by: one end of each group of C-shaped tubes is equidistantly arranged on the driving box through a connecting shaft, one end of each connecting shaft is connected with one end of each group of C-shaped tubes in a one-to-one correspondence manner, the other end of each connecting shaft penetrates through the driving box and extends inwards in a driving manner, a transmission gear is fixedly arranged at the other end of each connecting shaft and is connected with the other end of each connecting shaft through a transmission chain, a transverse adjusting sleeve is arranged at the other end of each L-shaped connecting tube through a transverse locking sleeve and is arranged in one end of the transverse adjusting sleeve, an adjacent L-shaped connecting tube is arranged in the other end of the transverse adjusting sleeve through the transverse locking sleeve, a plurality of spray heads are equidistantly arranged on the side wall, close to the sliding tube, of the middle part of each C-shaped tube, a ground inserting nail is arranged between two adjacent C-shaped tubes of each group of C-shaped tubes, the other ends of the plurality of C-shaped tubes are arranged on a fixing frame, a plurality of clamping grooves are equidistantly arranged on the fixing frame, and are in one-to-clamping grooves through rotary joints, one end of the rotary joint is communicated with the C-shaped pipe, and the other ends of the rotary joints are arranged on the water delivery pipe and are communicated with the water delivery pipe.

2. The intelligent irrigation device for the water conservancy project according to claim 1, wherein each group of the C-shaped pipes is formed by connecting a plurality of C-shaped pipes, the C-shaped pipes are communicated with one another, the C-shaped pipes are of a symmetrical structure, and two ends of each C-shaped pipe are bent in the same direction by 90 degrees to form a sliding pipe.

3. The intelligent irrigation device for the water conservancy project according to claim 1, wherein one end of the L-shaped connecting pipe is connected with the end part of the sliding pipe through a height locking sleeve, and the length of the sliding pipe at the two ends of the C-shaped pipe and the L-shaped connecting pipe can be adjusted, so that the device is suitable for plants with different heights.

4. The intelligent irrigation device for the water conservancy project according to claim 2, wherein the upper and lower sides of the middle part of the C-shaped pipe are provided with the anti-collision strips, so that the spray head in the middle part of the C-shaped pipe can be protected, the spray head is effectively prevented from being shielded by plant leaves and acting on each part of the plant, particularly the root part, and the irrigation water is prevented from being sprayed onto the soil far away from the outer ring of the plant during water spraying.

5. The intelligent irrigation device for the water conservancy project according to claim 1, wherein the ground inserting nail is sleeved on one end, close to the rotary joint, of the C-shaped pipe through a limiting ring, and the ground inserting nail is fixedly arranged at the bottom of the limiting ring.

6. The intelligent irrigation device for water conservancy projects according to claim 5, wherein a support plate is fixedly arranged at the top of the ground inserting nail.

7. The intelligent irrigation device for the hydraulic engineering of claim 6, wherein the bottom of the ground inserting nail is provided with a conical tip structure.

8. The intelligent irrigation device for the water conservancy project according to claim 1, wherein when in use, the rotation speed and the swing amplitude of the driving motor are regulated and controlled by the intelligent control system in the matching background, so that good irrigation on agricultural plants can be effectively ensured, and meanwhile, irrigation water is prevented from being sprayed onto soil on the far side of the outer ring of the plant when water is sprayed.

9. The intelligent irrigation device for the water conservancy project according to claim 1, wherein when in use, plants are correspondingly arranged between two adjacent groups of C-shaped pipes, then the device is fixed on soil by inserting ground nails, the distance between two adjacent groups of L-shaped connecting pipes can be adjusted by adjusting the transverse locking sleeves, further the distance between the adjacent C-shaped pipes is adjusted, spray heads on the C-shaped pipes are aligned to the plants, and the sliding pipes at two ends of the C-shaped pipes and the L-shaped connecting pipes are adjusted by loosening and screwing the height locking sleeves, so that the intelligent irrigation device is suitable for the plants with different heights.

10. The intelligent irrigation device for the water conservancy project according to claim 1, wherein the transmission gear rotates and simultaneously enables the connecting shaft to drive each group of C-shaped pipes to rotate in a reciprocating manner by 150 degrees, so that the spray heads on the C-shaped pipes can rotate to irrigate plants, and each plant body is subjected to wrapped type surrounding irrigation, and water is enabled to irrigate each leaf surface of the plant body.