CN113951106A

CN113951106A - Hydraulic engineering irrigation system

Info

Publication number: CN113951106A
Application number: CN202111426738.0A
Authority: CN
Inventors: 甄红锋
Original assignee: Shandong Water Conservancy Vocational College
Current assignee: Shandong Water Conservancy Vocational College
Priority date: 2021-11-27
Filing date: 2021-11-27
Publication date: 2022-01-21

Abstract

The invention provides a water conservancy project irrigation system, which relates to the technical field of water conservancy irrigation and comprises the following components: four groups of inner supports are fixedly arranged at the top ends of four corners inside the trapezoidal seat; the top of the flow dividing device is fixedly provided with an assembly top seat, and the top of the assembly top seat is fixedly provided with an upper bracket; four groups of T-shaped pipes are connected and arranged around the flow dividing device, watering pipes are integrally arranged at the bottom of the side of each T-shaped pipe, the purpose of positioning irrigation can be achieved according to the trapezoidal seat of each embodiment of the invention, a movable surrounding structure for stably positioning and soaking a farmland is provided, the lead screw lifting riding wheel is rotated to seat the trapezoidal seat on the surface of the farmland, a guide structure can be provided through the inverted trapezoidal structure to ensure that water is flushed to the inner side in irrigation, the farmland is subjected to coverage irrigation, and the problem that the currently used irrigation system mainly comprises a water pumping part and a spraying part and does not have a movable surrounding structure for stably positioning and soaking the farmland is solved.

Description

Hydraulic engineering irrigation system

Technical Field

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

Background

Irrigation is an important step based on agricultural production, water in a water source is generally required to be guided and crossed in combination with hydraulic engineering, water is conveyed to a farmland for irrigation, and the irrigation needs to soak the whole farmland to ensure that the soil in a full-angle fall can be soaked due to the fact that the soil has a diffusion phenomenon.

However, the irrigation system used at present mainly comprises a pumping part and a spraying part, does not have a movable surrounding structure for positioning and soaking the farmland stably, does not have the functions of extraction and interval delivery which are convenient to control, does not have a stable filtering and extracting structure, and is not beneficial to quick irrigation.

Disclosure of Invention

In view of this, the invention provides a hydraulic engineering irrigation system, which has a trapezoid seat, and can provide a guide structure through an inverted trapezoid structure, wrap a farmland, perform irrigation at a specified position, and achieve the purpose of positioning irrigation.

The invention provides a hydraulic engineering irrigation system, which specifically comprises: four groups of inner supports are fixedly arranged at the top ends of four corners inside the trapezoidal seat; the top of the flow dividing device is fixedly provided with an assembly top seat, and the top of the assembly top seat is fixedly provided with an upper bracket; four groups of T-shaped pipes are connected and arranged around the flow dividing device, and irrigation pipes are integrally arranged at the bottoms of the sides of the T-shaped pipes; the side of the T-shaped pipe is fixedly connected with the side of the top of the inner support; the hopper-shaped pipe is fixedly arranged at the bottom of the flow dividing device; the top of the conveying device is integrally provided with a water feeding channel, and the water feeding channel is aligned with the bottom of the bucket-shaped pipe; the conveying device is of a cylindrical structure and is aligned with the circle center of the bucket-shaped pipe; the bottom plate is fixedly arranged at the bottom of the conveying device, a motor base is fixedly arranged at the bottom of the bottom plate, and a servo motor is fixedly arranged in the motor base; the main shaft is rotatably arranged between the assembly top seat and the bottom plate through an airtight bearing; the eight-wing poking frame is fixedly arranged outside the main shaft, and one side of a wing plate of the eight-wing poking frame is transversely provided with a telescopic plate in a sliding manner through a guide rail; the top of the crutch bracket is rotatably provided with a fan shaft, and the outer end of the fan shaft is fixedly provided with a power-assisted fan; one end of the crutch bracket is rotatably provided with a connecting vertical shaft, and the connecting vertical shaft is in transmission connection with a fan shaft provided with a bevel gear; the water filtering device is characterized in that four groups of floating blocks are fixedly arranged on the outer side of the water filtering device, a cross is fixedly arranged at the top of each floating block, and a lifting pipe is fixedly arranged in the middle of the bottom of each floating block.

Optionally, the trapezoid seat further comprises: the sliding frames are fixedly arranged on the two sides of the front surface and the back surface of the trapezoidal seat, and a screw rod is rotationally arranged in each sliding frame; the riding wheel is arranged in the sliding frame in a sliding mode and is in threaded connection with the lead screw.

Optionally, the flow dividing device further includes: the top of the upper support is fixedly provided with the annular frame, and the top of the annular frame is integrally provided with a guide edge.

Optionally, one side of the inside of the conveying device is a contraction structure, and the inner wall of the contraction structure is communicated with the water feeding channel.

Optionally, the two ends of the main shaft are both fixedly provided with an inner ratchet group, and the bottom end of the connecting vertical shaft is fixedly connected with the inner part of the inner ratchet group at the top end of the main shaft; the servo motor is fixedly connected with the inside of the ratchet group in the bottom end of the main shaft; a core valve is fixedly arranged outside the main shaft, a quarter of gap is formed in the core valve, and the side of the gap is a right angle; the core valve is arranged in the shunt device in an attaching mode.

Optionally, the eight-wing toggle frame further comprises: the spring rod is fixedly arranged outside the eight-wing poking frame, the spring rod is sleeved with the spring and is in sliding connection with the telescopic plate, and the edge of the telescopic plate is of a semi-cylindrical structure and is adhered with a rubber layer.

Optionally, the bottom of the crutch is rotatably provided with two sets of T-shaped carrying wheels, and the T-shaped carrying wheels are attached and rotatably arranged outside the guide edge.

Optionally, the water filtering device further comprises: four groups of side pipes are integrally arranged outside the lifting pipe, and the side pipes penetrate through the water filtering device and are welded with a ring pipe; the bottom of the water filtering device is fixedly provided with the spherical net.

Compared with the prior art, the invention has the beneficial effects that:

1. the trapezoid seat provided by each embodiment of the invention can realize the purpose of positioning irrigation, provides a movable surrounding structure for stably positioning and soaking a farmland, rotates the lead screw lifting riding wheel to seat the trapezoid on the surface of the farmland and wrap the farmland, and can provide a guide structure through the inverted trapezoid structure to ensure that water is flushed to the inner side during irrigation so as to perform coverage irrigation on the farmland.

2. When the eight-wing shifting frame rotates, the expansion plate is contracted under the guidance of an internal contraction structure of the conveying device, water is continuously conveyed into the water feeding channel after the space is reduced, the water further passes through the bucket-shaped pipe to be input into the flow dividing device, and the water is irrigated to a farmland by the aid of the T-shaped pipe and the irrigation pipe and along the guidance of the trapezoid seat; the rotary valve can provide a reversing function in the rotating process, and can continuously change the water conveying direction to provide a uniform conveying effect.

3. Water filtering device can float at the surface of water, conveniently observes and retrieves and distribute, and water passes the bottom that is higher than the riser behind the ball-shaped net to the riser can provide the extraction effect at any time, and guarantees that the water of extraction is surface water, can maximize the clean degree of guaranteeing water.

4. When wind blows, the wind blows the crutch to swing, the crutch automatically aligns to the wind direction, then the wind pushes the power-assisted fan to rotate, the power-assisted fan drives the connecting vertical shaft to rotate through the bevel gear, power assistance is applied to the main shaft, energy can be saved, and conveying efficiency can be improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic overall perspective view of an embodiment according to the invention;

FIG. 2 shows a schematic overall axial structure according to an embodiment of the invention;

fig. 3 shows a schematic perspective view of a water filtering device according to an embodiment of the invention;

fig. 4 shows a schematic side-bottom view of a water filtering device according to an embodiment of the invention;

fig. 5 shows a perspective assembly view of a flow diversion device according to an embodiment of the present invention;

FIG. 6 illustrates an assembled structural view of a flow diversion device according to an embodiment of the present invention;

FIG. 7 shows an enlarged partial schematic view A according to an embodiment of the invention;

fig. 8 shows a partial enlarged schematic view of B according to an embodiment of the invention.

List of reference numerals

1. A trapezoidal base; 101. an inner support; 102. a sliding frame; 103. a lead screw; 104. a riding wheel; 2. a flow divider; 201. assembling a top seat; 202. an upper bracket; 203. an annular frame; 204. a guide edge; 205. a T-shaped pipe; 206. irrigating a pipe; 3. a bucket-shaped tube; 4. a conveying device; 401. a water feeding channel; 5. a base plate; 501. a motor base; 502. a servo motor; 6. a main shaft; 601. an inner ratchet set; 602. a heart valve; 7. eight-wing poking frame; 701. a retractable plate; 702. a spring lever; 8. a crutch frame; 801. a T-shaped wheel; 802. a fan shaft; 803. a booster fan; 804. connecting the vertical shaft; 9. a water filtering device; 901. floating blocks; 902. a cross; 903. a riser tube; 904. a side tube; 905. a ring pipe; 906. a spherical mesh.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 8:

the invention provides a hydraulic engineering irrigation system, which comprises: four groups of inner supports 101 are fixedly arranged at the top ends of four corners inside the trapezoidal seat 1; the top of the flow distribution device 2 is fixedly provided with an assembly top seat 201, and the top of the assembly top seat 201 is fixedly provided with an upper bracket 202; four groups of T-shaped pipes 205 are connected and arranged around the flow dividing device 2, and irrigation pipes 206 are integrally arranged at the bottom of the side of each T-shaped pipe 205; the side of the T-shaped pipe 205 is fixedly connected with the side of the top of the inner support 101; the hopper-shaped pipe 3 is fixedly arranged at the bottom of the flow dividing device 2; the top of the conveying device 4 is integrally provided with a water feeding channel 401, and the water feeding channel 401 is aligned with the bottom of the bucket-shaped pipe 3; the conveying device 4 is of a cylindrical structure, and the circle center of the conveying device 4 is aligned with the circle center of the bucket-shaped pipe 3; the conveying device comprises a bottom plate 5, wherein the bottom plate 5 is fixedly arranged at the bottom of the conveying device 4, a motor base 501 is fixedly arranged at the bottom of the bottom plate 5, and a servo motor 502 is fixedly arranged in the motor base 501; a main shaft 6, wherein the main shaft 6 is rotatably arranged between the assembly top seat 201 and the bottom plate 5 through an airtight bearing; the eight-wing poking frame 7 is fixedly arranged outside the main shaft 6, and one side of a wing plate of the eight-wing poking frame 7 is transversely provided with a telescopic plate 701 in a sliding manner through a guide rail; the top of the crutch rack 8 is rotatably provided with a fan shaft 802, and the outer end of the fan shaft 802 is fixedly provided with a booster fan 803; one end of the crutch rack 8 is rotatably provided with a connecting vertical shaft 804, and the connecting vertical shaft 804 is in transmission connection with a fan shaft 802 by a bevel gear; four groups of floating blocks 901 are fixedly arranged on the outer side of the water filtering device 9, a cross 902 is fixedly arranged at the top of each floating block 901, and a lifting pipe 903 is fixedly arranged in the middle of the bottom of each floating block 901.

Furthermore, according to an embodiment of the present invention, referring to fig. 2, the trapezoidal base 1 further includes: the sliding frames 102 are fixedly arranged on the front side and the rear side of the trapezoidal seat 1, and a screw rod 103 is rotatably arranged in the sliding frames 102; the riding wheel 104 is arranged in the sliding frame 102 in a sliding mode, the riding wheel 104 is in threaded connection with the lead screw 103, the riding wheel 104 can be moved downwards by rotating the lead screw 103, the riding wheel 104 can be used for lifting the trapezoidal base 1, and a moving function is provided, so that the ladder base is widely used.

Furthermore, according to an embodiment of the present invention, referring to fig. 7, the flow dividing device 2 further includes: the top of the annular frame 203 and the upper support 202 is fixedly provided with the annular frame 203, and the top of the annular frame 203 is integrally provided with a guide edge 204.

In addition, according to the embodiment of the present invention, referring to fig. 5-6, the inner side of the conveying device 4 is a contracting structure, and the inner wall of the contracting structure is communicated with the water feeding channel 401, so that when the expansion plate 701 is attached to the position of the contracting structure, the contraction is guided to realize the conveying effect.

In addition, according to the embodiment of the present invention, referring to fig. 5 and 8, the two ends of the main shaft 6 are both fixedly provided with an inner ratchet set 601, and the bottom end of the connecting vertical shaft 804 is fixedly connected with the inside of the inner ratchet set 601 at the top end of the main shaft 6; the servo motor 502 is fixedly connected with the inside of the inner ratchet wheel group 601 at the bottom end of the main shaft 6; a core valve 602 is fixedly arranged outside the main shaft 6, a quarter of gap is formed in the core valve 602, and the side of the gap is a right angle; the core valve 602 is attached and arranged in the flow dividing device 2, the core valve 602 is arranged to control and adjust the conveying direction, the conveying position is continuously changed, the uniform irrigation in the farmland is guaranteed, and the sufficient conveying pressure is guaranteed.

In addition, according to an embodiment of the present invention, referring to fig. 8, the eight-wing dial frame 7 further includes: the spring rod 702 is fixedly arranged outside the eight-wing toggle frame 7, the spring rod 702 is sleeved with a spring and is in sliding connection with the telescopic plate 701, and the edge of the telescopic plate 701 is of a semi-cylindrical structure and is provided with a rubber layer in an adhesive mode.

In addition, according to the embodiment of the present invention, referring to fig. 7, two sets of T-shaped wheels 801 are rotatably disposed at the bottom of the crutch 8, and the T-shaped wheels 801 are rotatably disposed outside the guide rim 204, the guide rim 204 and the T-shaped wheels 801 provide a large amount of bearing capacity for the crutch 8, and in addition, a thin plate capable of providing a guiding effect is disposed at the bottom of the outer side of the crutch 8 in the figure, which can ensure that the crutch 8 can be automatically adjusted to an angle perpendicular to the wind direction.

Furthermore, according to an embodiment of the present invention, referring to fig. 3 to 4, the water filtering means 9 further comprises: four groups of side pipes 904 are integrally arranged outside the lifting pipe 903, the side pipes 904 penetrate through a water filtering device 9 and are welded with a ring pipe 905, and the ring pipe 905 is connected with a conveying device 4 through a hose to provide a conveying effect; the spherical net 906 and the bottom of the water filtering device 9 are fixedly provided with the spherical net 906, the spherical net 906 can continuously provide a filtering effect, and the filtering interception of a water source can be realized.

The specific use mode and function of the embodiment are as follows: in the invention, firstly, the trapezoidal seat 1 is moved to the upper part of a farmland, the lead screw 103 is rotated to lift the riding wheel 104, the trapezoidal seat 1 is fallen on the surface of the farmland, the farmland is wrapped, the water filtering device 9 is pushed into the water surface, the top surface of the water filtering device 9 is ensured to be higher than the water surface through the floating block 901, and the preset steps are completed.

The power connection starting servo motor 502 drives the main shaft 6 to rotate, the main shaft 6 drives the eight-wing stirring frame 7 and the core valve 602 to rotate, when the eight-wing stirring frame 7 rotates, the eight-wing stirring frame is guided by the internal contraction structure of the conveying device 4, the expansion plate 701 contracts, when the space is reduced, water is continuously conveyed into the water feeding channel 401, further passes through the bucket-shaped pipe 3 to be input into the flow dividing device 2, the water is sprayed out by the T-shaped pipe 205 and the irrigation pipe 206, and the water is irrigated into a farmland along the guide of the trapezoid base 1; the rotary process of the core valve 602 can provide a reversing function, the water delivery direction can be continuously changed to provide a uniform delivery effect, water can be delivered from the inside of the right-angle notch of the core valve 602, and the continuous change control of the delivery direction is realized.

The water passes through the spherical net 906 and then is higher than the bottom of the lifting pipe 903, so that the lifting pipe 903 can provide an extraction effect at any time, the extracted water is surface water, and the cleanness degree of the water can be guaranteed to the maximum extent.

When wind blows, the crutch frame 8 swings, the crutch frame 8 automatically aligns with the wind direction, and then the wind pushes the power-assisted fan 803 to rotate, the power-assisted fan 803 drives the connecting vertical shaft 804 to rotate through the bevel gear to apply power to the main shaft 6, so that energy can be saved and the conveying efficiency can be improved.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims

1. A hydraulic engineering irrigation system comprising:

the device comprises a trapezoidal seat (1), wherein four groups of inner supports (101) are fixedly arranged at the top ends of four corners inside the trapezoidal seat (1);

the top of the flow dividing device (2) is fixedly provided with an assembly top seat (201), and the top of the assembly top seat (201) is fixedly provided with an upper support (202); four groups of T-shaped pipes (205) are connected and arranged around the flow dividing device (2), and irrigation pipes (206) are integrally arranged at the bottom of the side of each T-shaped pipe (205); the side of the T-shaped pipe (205) is fixedly connected with the side of the top of the inner support (101);

the hopper-shaped pipe (3) is fixedly arranged at the bottom of the flow dividing device (2);

the top of the conveying device (4) is integrally provided with a water feeding channel (401), and the water feeding channel (401) is aligned with the bottom of the bucket-shaped pipe (3); the conveying device (4) is of a cylindrical structure, and the circle centers of the conveying device (4) and the hopper-shaped pipe (3) are aligned;

the conveying device comprises a bottom plate (5), wherein the bottom plate (5) is fixedly arranged at the bottom of the conveying device (4), a motor base (501) is fixedly arranged at the bottom of the bottom plate (5), and a servo motor (502) is fixedly arranged in the motor base (501);

the main shaft (6), the said main shaft (6) is set up between assembling the footstock (201) and bottom plate (5) rotatably through the airtight bearing;

the eight-wing poking frame (7) is fixedly arranged outside the main shaft (6), and one side of a wing plate of the eight-wing poking frame (7) is transversely provided with a telescopic plate (701) in a sliding manner through a guide rail;

the top of the crutch rack (8) is rotatably provided with a fan shaft (802), and the outer end of the fan shaft (802) is fixedly provided with a booster fan (803); one end of the crutch rack (8) is rotatably provided with a connecting vertical shaft (804), and the connecting vertical shaft (804) is in transmission connection with a fan shaft (802) through a bevel gear;

the water filtering device (9) is characterized in that four groups of floating blocks (901) are fixedly arranged on the outer side of the water filtering device (9), a cross (902) is fixedly arranged at the top of each floating block (901), and a lifting pipe (903) is fixedly arranged in the middle of the bottom of each floating block (901).

2. A water conservancy project irrigation system according to claim 1, characterized in that said trapezoidal seat (1) further comprises:

the sliding frames (102) are fixedly arranged on the front side and the rear side of the trapezoidal seat (1), and the screw rods (103) are rotatably arranged in the sliding frames (102);

the riding wheel (104) is arranged in the sliding frame (102) in a sliding mode, and the riding wheel (104) is in threaded connection with the lead screw (103).

3. A water conservancy project irrigation system according to claim 1, characterized in that said diversion means (2) further comprises:

the top of the upper support (202) is fixedly provided with the annular frame (203), and the top of the annular frame (203) is integrally provided with a guide edge (204).

4. A water conservancy project irrigation system according to claim 1, characterized in that the inner side of the delivery device (4) is of a collapsible structure, and the inner wall of the collapsible structure is communicated with the water feeding channel (401).

5. The irrigation system according to claim 1, wherein the two ends of the main shaft (6) are fixedly provided with inner ratchet sets (601), and the bottom end of the connecting vertical shaft (804) is fixedly connected with the inner ratchet sets (601) at the top end of the main shaft (6); the servo motor (502) is fixedly connected with the inside of the inner ratchet wheel set (601) at the bottom end of the main shaft (6); a core valve (602) is fixedly arranged outside the main shaft (6), a quarter of gap is formed in the core valve (602), and the side of the gap is a right angle; the core valve (602) is arranged in the shunt device (2) in a fitting manner.

6. A hydraulic engineering irrigation system according to claim 1, characterized in that said eight-wing rake (7) further comprises:

the spring rod (702) is fixedly arranged outside the eight-wing poking frame (7), the spring rod (702) is sleeved with the spring and is in sliding connection with the telescopic plate (701), and the edge of the telescopic plate (701) is of a semi-cylindrical structure and is adhered with a rubber layer.

7. A water conservancy project irrigation system as claimed in claim 1 or 3, characterized in that the bottom of the crutch (8) is rotatably provided with two sets of T-shaped carrying wheels (801), and the T-shaped carrying wheels (801) are fitted and rotatably arranged outside the guide rim (204).

8. A water conservancy project irrigation system according to claim 1, characterized in that the water filtering means (9) further comprises:

four groups of side pipes (904) are integrally arranged outside the lifting pipe (903), and the side pipes (904) penetrate through the water filtering device (9) and are welded with a ring pipe (905);

the spherical net (906) is fixedly arranged at the bottom of the water filtering device (9).