CN113983270A

CN113983270A - A pipeline that silt blockked up is prevented to water conservancy for hydraulic engineering

Info

Publication number: CN113983270A
Application number: CN202111134019.1A
Authority: CN
Inventors: 谢进
Original assignee: Individual
Current assignee: Hunan Jia Lun Architectural Engineering Co ltd
Priority date: 2021-09-27
Filing date: 2021-09-27
Publication date: 2022-01-28
Anticipated expiration: 2041-09-27
Also published as: CN113983270B

Abstract

The invention discloses a water conservancy silt blockage prevention pipeline for water conservancy projects, which greatly increases the dredging effect of a pipe body and increases the dredging efficiency of the pipe body. The invention not only can conveniently and quickly desilt the pipeline, but also has high efficiency, reduces the influence of drainage and pollution discharge caused by blockage of the pipeline, and improves the water delivery efficiency of hydraulic engineering.

Description

A pipeline that silt blockked up is prevented to water conservancy for hydraulic engineering

Technical Field

The invention relates to the technical field of drainage and decontamination of hydraulic engineering, in particular to a pipeline for preventing sludge blockage of water conservancy in hydraulic engineering.

Background

Hydraulic engineering is the construction of various projects built for controlling, utilizing and protecting surface and underground water resources and environment, irrigation and drainage in the field irrigation are the core of the field irrigation, and irrigation ditches and drainage ditches, like human arteries and veins, are the most basic facilities for agricultural production. Due to historical reasons, soil channels are used in farmlands, and the seepage and siltation are serious, so that not only are water resources wasted, but also too much water is irrigated in the near field (at the head of the channel) and too little water is irrigated in the far field, so that water resources are not fully utilized, the growth of part of crops is influenced, and the yield of the crops is reduced. Also for historical reasons, most of the farmland drainage ditches are not deep enough (usually about 0.3 m), only surface water can be drained but underground water cannot be drained, more part of the farmland is irrigated or not drained (no drainage ditches), the underground water level is high, the water content in the soil is high, the air exchange between the soil and the atmosphere is influenced, and O in the soil is generated₂Insufficient, the temperature is reduced by 0.5 to 3 ℃, and the toxicity is reducedThe increase of the substances causes the reduction of the yield of crops.

In order to solve the problems, the existing irrigation technology adopts a sealed pipeline to carry out water source conveying, the irrigation efficiency is greatly increased, the problems of leakage and the like of a water source are solved, the water source is greatly saved, the environmental pollution is reduced, however, the existing water conservancy pipeline is long in length and short in diameter, the existing water conservancy pipeline often causes sludge blockage, the problems of irrigation and drainage are influenced, the existing water conservancy pipeline cannot facilitate the cleaning of sludge, the use is inconvenient, the operation of irrigation, drainage and the like is influenced, and the production is influenced.

Accordingly, one skilled in the art provides a hydraulic silt-plugging prevention pipeline for hydraulic engineering to solve the problems set forth in the background art.

Disclosure of Invention

The invention aims to provide a water conservancy silt blockage prevention pipeline for water conservancy engineering, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a pipeline that is used for silt jam is prevented to hydraulic engineering's water conservancy, includes the body, the inside a plurality of first spouts that are provided with of output of body, slidable mounting has mediation subassembly in the first spout, body output lateral wall has cup jointed sliding part, install a plurality of seal covers on the sliding part, seal mounting has solenoid in the seal cover, actuating mechanism is still installed to the output lateral wall of body.

As a further aspect of the invention: and a swing structure is arranged between the outer side wall of the output end of the pipe body and the seal sleeve.

As a further aspect of the invention: the outer side of the output end of the tube body is provided with a plurality of second sliding grooves, the second sliding grooves and the first sliding grooves are arranged along the radial direction of the tube body in a corresponding mode, the whole sliding part is sleeved on the side wall of the output end of the tube body in an annular mode, a plurality of positioning plates are fixedly arranged on the sliding part, the positioning plates are connected with the second sliding grooves in a sliding fit mode, and the sealing sleeve is installed on the positioning plates.

As a further aspect of the invention: the swing structure comprises a third sliding groove and a guide groove, the third sliding groove is formed in the inner end wall of the positioning plate and is perpendicular to the second sliding groove, the guide groove is formed in the bottom of the second sliding groove and is wavy, the upper end of the sealing sleeve is slidably mounted in the third sliding groove, and the lower portion of the sealing sleeve extends into the guide groove and is connected with the guide groove in a matched mode.

As a further aspect of the invention: the dredging component comprises a sliding plate and a dredging plate, the sliding plate is connected with one side, away from the center of the pipe body, of the first sliding groove in a sliding fit mode, and a spherical block is fixed on the lower end face of the sliding plate.

As a further aspect of the invention: a magnetic block is fixed on one side, away from the end face of the output end of the pipe body, of the dredging plate, and a spherical sleeve is fixed on one side, close to the magnetic block, of the upper end of the dredging plate.

As a further aspect of the invention: the side wall of the pipe body is further provided with a mounting groove, the driving mechanism comprises a motor and a screw shaft, the screw shaft is rotatably mounted in the mounting groove, the motor is fixed at one end, away from the end face of the output end of the pipe body, of the mounting groove, the output end of the motor extends into the mounting groove and is provided with a first bevel gear, a second bevel gear is mounted at the end, close to the motor, of the screw shaft and is meshed with the first bevel gear, a sliding block is fixed at a position, corresponding to the mounting groove, of the sliding component, and the sliding block extends into the mounting groove and is movably matched with the screw shaft.

As a further aspect of the invention: the first sliding grooves are uniformly distributed at intervals along the circumferential direction.

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

when the hydraulic engineering pipeline is blocked, the dredging operation can be rapidly carried out on the hydraulic engineering pipeline, and before and after dredging, the normal use of the pipeline cannot be influenced by the dredging structure in the pipeline.

Drawings

FIG. 1 is a schematic view showing the overall structure of a hydraulic anti-clogging pipe used in hydraulic engineering;

FIG. 2 is a schematic view of a first chute in a hydraulic anti-sludge pipeline for hydraulic engineering;

FIG. 3 is a schematic view showing a sliding part of a pipe for preventing clogging in hydraulic engineering;

FIG. 4 is a schematic view of a dredging assembly in a hydraulic anti-sludge pipeline for hydraulic engineering;

FIG. 5 is a schematic diagram of the structure of an electromagnetic coil in a hydraulic anti-sludge pipeline for hydraulic engineering;

FIG. 6 is a schematic view of a guide groove in a hydraulic anti-sludge pipeline for hydraulic engineering;

FIG. 7 is a schematic view of a slide block in a hydraulic anti-sludge pipeline for hydraulic engineering;

fig. 8 is a schematic structural diagram of a magnetic block in a pipeline for preventing silt blockage in water conservancy projects.

In the figure: 1. a pipe body; 2. a first chute; 3. a dredging component; 4. a sliding member; 5. sealing sleeves; 6. an electromagnetic coil; 7. a drive mechanism; 8. a swing structure; 9. a second chute; 10. positioning a plate; 11. a third chute; 12. a guide groove; 13. a slide plate; 14. a dredging plate; 15. a spherical block; 16. a magnetic block; 17. a spherical sleeve; 18. mounting grooves; 19. a motor; 20. a screw shaft; 21. a first bevel gear; 22. a second bevel gear; 23. a slide block.

Detailed Description

Referring to fig. 1-8, in an embodiment of the present invention, a water conservancy silt blockage prevention pipeline for water conservancy engineering includes a pipe body 1, a plurality of first chutes 2 are disposed inside an output end of the pipe body 1, dredging components 3 are slidably mounted in the first chutes 2, a sliding component 4 is sleeved on an outer side wall of the output end of the pipe body 1, a plurality of sealing sleeves 5 are mounted on the sliding component 4, electromagnetic coils 6 are sealingly mounted in the sealing sleeves 5, a driving mechanism 7 is further mounted on an outer side wall of the output end of the pipe body 1, the electromagnetic coils 6 are adapted to adsorb the dredging components 3, the driving mechanism 7 is adapted to drive the sliding component 4 to reciprocate along an axial direction of the output end of the pipe body 1, so that the sealing sleeves 5 are driven to adsorb the dredging components 3 through the electromagnetic coils 6 and reciprocate along the first chutes 2, so as to dredge the blockage of the output end of the pipe body 1.

A swing structure 8 is arranged between the outer side wall of the output end of the tube body 1 and the sealing sleeve 5; make 6 absorption mediation subassemblies 3 of interior solenoid of seal cover 5 carry out reciprocating motion through swing structure 8 in, still drive mediation subassembly 3 and swing to improve the mediation efficiency that mediation subassembly 3 blockked up the output of body 1.

A plurality of second chutes 9 are arranged on the outer side of the output end of the tube body 1, the second chutes 9 and the first chutes 2 are arranged along the radial direction of the tube body 1 correspondingly, the whole sliding part 4 is annularly sleeved on the side wall of the output end of the tube body 1, a plurality of positioning plates 10 are fixedly arranged on the sliding part 4, the positioning plates 10 are connected with the second chutes 9 in a sliding fit manner, and the sealing sleeve 5 is arranged on the positioning plates 10; the electromagnetic coil 6 in the sealing sleeve 5 drives the dredging component 3 to dredge along the reciprocating sliding of the positioning plate 10 along the second sliding chute 9.

The swing structure 8 comprises a third sliding chute 11 and a guide groove 12, the third sliding chute 11 is arranged on the inner end wall of the positioning plate 10, the third sliding chute 11 is perpendicular to the second sliding chute 9, the guide groove 12 is arranged at the bottom of the second sliding chute 9, the guide groove 12 is wavy, the upper end of the sealing sleeve 5 is slidably mounted in the third sliding chute 11, and the lower part of the sealing sleeve 5 extends into the guide groove 12 and is connected with the guide groove 12 in a matched manner; when the sealing sleeve 5 axially slides along the second sliding groove 9 under the driving of the sliding component 4, the sealing sleeve 5 can swing along the third sliding groove 11 through the matching with the guide groove 12, so that the dredging component 3 is driven to axially move and swing at the same time, and the dredging efficiency of the dredging component 3 is improved.

The dredging component 3 comprises a sliding plate 13 and a dredging plate 14, the sliding plate 13 is connected with one side of the first chute 2 far away from the center of the pipe body 1 in a sliding fit manner, and a spherical block 15 is fixed on the lower end face of the sliding plate 13; a magnetic block 16 is fixed on one side of the dredging plate 14 far away from the end face of the output end of the tube body 1, and a spherical sleeve 17 is fixed on one side of the upper end of the dredging plate 14 close to the magnetic block 16; the dredging plate 14 forms a spherical hinge through the matching of the spherical sleeve 17 and the spherical block 15, the electromagnetic coil 6 in the sealing sleeve 5 is suitable for adsorbing the magnetic block 16, and meanwhile, the gravity of the plate section from the magnetic block 16 to the spherical sleeve 17 is equal to the weight of the rest plate sections of the dredging plate 14; when the pipe body 1 is not blocked, the dredging plate 14 is parallelly positioned in the first chute 2; when the pipe body 1 is blocked, the electromagnetic coil 6 is suitable for adsorbing the magnetic block 16 through magnetic force, and then the dredging plate 14 rotates around the spherical hinge position, so that the end part, close to the dredging plate 14, obliquely extends out of the first sliding chute 2, and then the axial movement is carried out under the driving of the electromagnetic coil 6 to dredge.

The side wall of the pipe body 1 is further provided with a mounting groove 18, the driving mechanism 7 comprises a motor 19 and a screw shaft 20, the screw shaft 20 is rotatably mounted in the mounting groove 18, the motor 19 is fixed at one end of the mounting groove 18 far away from the end face of the output end of the pipe body 1, the output end of the motor 19 extends into the mounting groove 18 and is provided with a first bevel gear 21, the end of the screw shaft 20 close to the motor 19 is provided with a second bevel gear 22, the second bevel gear 22 is meshed with the first bevel gear 21, a sliding block 23 is fixed at a position of the sliding component 4 corresponding to the mounting groove 18, and the sliding block 23 extends into the mounting groove 18 and is movably matched and connected with the screw shaft 20; the first chutes 2 are uniformly distributed at intervals along the circumferential direction; the motor 19 rotates the first bevel gear 21, the screw shaft 20 is rotated by the first bevel gear 21 and the second bevel gear 22, and the slide member 4 is driven to move axially by the rotation of the screw shaft 20 by the slider 23.

The electric energy of the electromagnetic coil 6 and the electric energy of the motor 19 can be collected through water conservancy power generation, and can also be connected through a power grid.

The working principle of the invention is as follows: when the output end of the pipe body 1 is not blocked, as shown in fig. 5, the dredging plate 14 is horizontally located in the first sliding groove 2, and at this time, the dredging plate 14 abuts against the side end of the first sliding groove 2 through the end part, so that the dredging plate 14 is located in the first sliding groove 2 and is kept stable.

When the output end of the pipe body 1 is blocked, as shown in fig. 6, at this time, the electromagnetic coil 6 is energized to generate magnetic force to adsorb the magnetic block 16 on the dredging plate 14, so that the dredging plate 14 rotates obliquely around the spherical hinge position until the end of the dredging plate 14 extends to the outside of the first chute 2 and is close to the inner center of the pipe body 1, then the motor 19 is started to drive the screw shaft 20 to rotate, and further the sliding component 4 can be driven to move along the axial direction of the pipe body 1, in the moving process of the sliding component 4, the sealing sleeve 5 mounted on the upper positioning plate 10 can also move in a wave manner along the guide groove 12, and then the electromagnetic coil 6 mounted in the sealing sleeve 5 can drive the inclined dredging plate 14 to move axially and swing towards the two axial sides at the same time, so as to realize rapid dredging of the blockage of the output end of the pipe body 1.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides a pipeline that is used for silt jam is prevented to hydraulic engineering's water conservancy, includes body (1), its characterized in that, the inside a plurality of first spouts (2) that are provided with of output of body (1), slidable mounting has mediation subassembly (3) in first spout (2), body (1) output lateral wall has cup jointed sliding part (4), install a plurality of seal covers (5) on sliding part (4), solenoid (6) are installed to seal cover (5) internal seal, actuating mechanism (7) are still installed to the output lateral wall of body (1).

2. The water conservancy silt-blockage preventing pipeline for the water conservancy project according to claim 1, wherein a swinging structure (8) is arranged between the outer side wall of the output end of the pipe body (1) and the sealing sleeve (5).

3. The water conservancy silt-blockage preventing pipeline for the water conservancy project according to claim 2, wherein a plurality of second sliding grooves (9) are formed in the outer side of the output end of the pipe body (1), the second sliding grooves (9) and the first sliding grooves (2) are arranged in a radial direction of the pipe body (1) correspondingly, the sliding component (4) is integrally sleeved on the side wall of the output end of the pipe body (1) in an annular shape, a plurality of positioning plates (10) are fixedly arranged on the sliding component (4), the positioning plates (10) are connected with the second sliding grooves (9) in a sliding fit mode, and the sealing sleeve (5) is installed on the positioning plates (10).

4. The water conservancy silt-blockage preventing pipeline for the water conservancy project according to claim 3, wherein the swinging structure (8) comprises a third sliding groove (11) and a guide groove (12), the third sliding groove (11) is formed in the inner end wall of the positioning plate (10), the third sliding groove (11) is perpendicular to the second sliding groove (9), the guide groove (12) is formed in the bottom of the second sliding groove (9), the guide groove (12) is wavy, the upper end of the sealing sleeve (5) is slidably mounted in the third sliding groove (11), and the lower portion of the sealing sleeve (5) extends into the guide groove (12) and is connected with the guide groove (12) in a matched mode.

5. The water conservancy silt blockage prevention pipeline for the water conservancy project according to claim 4, wherein the dredging assembly (3) comprises a sliding plate (13) and a dredging plate (14), the sliding plate (13) is connected with one side, away from the center of the pipe body (1), of the first sliding chute (2) in a sliding fit mode, and a spherical block (15) is fixed on the lower end face of the sliding plate (13).

6. The water conservancy silt-blockage preventing pipeline for the water conservancy project according to claim 5, wherein a magnetic block (16) is fixed to one side, away from the end face of the output end of the pipe body (1), of the dredging plate (14), and a spherical sleeve (17) is fixed to one side, close to the magnetic block (16), of the upper end of the dredging plate (14).

7. The water conservancy silt blockage prevention pipeline for the water conservancy project according to claim 6, wherein a mounting groove (18) is further formed in the side wall of the pipe body (1), the driving mechanism (7) comprises a motor (19) and a screw shaft (20), the screw shaft (20) is rotatably mounted in the mounting groove (18), the motor (19) is fixed at one end of the mounting groove (18) far away from the end face of the output end of the pipe body (1), the output end of the motor (19) extends into the mounting groove (18) and is provided with a first bevel gear (21), a second bevel gear (22) is mounted at the end of the screw shaft (20) close to the motor (19), the second bevel gear (22) is in meshed connection with the first bevel gear (21), and a sliding block (23) is fixed on the sliding part (4) at a position corresponding to the mounting groove (18), the sliding block (23) extends into the mounting groove (18) and is movably connected with the screw shaft (20) in a matching manner.

8. A water conservancy silt-blockage preventing pipeline for water conservancy projects according to claim 7, wherein the first chutes (2) are uniformly distributed at intervals in the circumferential direction.