CN219060162U - High-efficient sediment removal device - Google Patents

Abstract

The utility model discloses a high-efficiency silt discharge device, which comprises: a storage box, a buoyancy box, a booster pump and a pipeline, a buoyancy box is connected to one side of the storage box, a booster pump is connected to the top of the storage box, the A pipeline is connected to one side of the booster pump, and the pipeline is connected to a connecting pipe. The connecting pipe is provided with an adjustment structure. One end of the connecting pipe is connected to a sewage suction port. The quick release structure is connected to the filter screen, and the gear inside the structure can be adjusted to drive the connecting pipe to move along the tooth plate, so that the sewage suction port can move up and down to fit the mud surface at the bottom of the river, and the height of the connecting pipe can be adjusted according to the height of the water surface , and the snap ring can be driven to rotate by the pick piece in the quick-release structure, so that the snap ring drives the fixing rod to slide along the fixing groove to a position flush with the second through groove, and then remove the filter screen, and at the same time, the fixing rod moves along the Sliding and disengaging in the second through slot, so that the filter screen can be easily disassembled and cleaned quickly.

Description

A high-efficiency sludge discharge device

technical field

The utility model relates to the technical field of water conservancy engineering, in particular to an efficient silt discharge device.

Background technique

Dredging generally refers to the treatment of river channels, which belongs to water conservancy projects. Through the silt discharge device, the silt deposited on the bottom of the river is blown and stirred into turbid water, and flows away with the river, thus playing the role of dredging. The existing high-efficiency silt discharge equipment is in There are still some defects in use, such as:

The connecting pipe in front of the existing high-efficiency desilting equipment needs to be inserted or pasted on the lake bottom silt during use, but the length of the existing equipment pipe is fixed, and the height of the pipe cannot be adjusted according to the length between the water surface and the river bottom. And the filter screen at one end of the connecting pipe of the existing high-efficiency desilting equipment is fixedly connected by screws. When the filter screen is blocked, the filter screen cannot be disassembled and cleaned quickly, which affects the working efficiency of the equipment.

Utility model content

The purpose of this utility model is to provide a high-efficiency silt discharge device to solve the problems that the high-efficiency silt discharge equipment on the market cannot adjust the height of the connecting pipe and is not convenient for quick cleaning of the filter screen proposed by the above-mentioned background technology.

In order to achieve the above purpose, the utility model provides the following technical solutions: a high-efficiency desilting device, including: a storage tank, a buoyancy tank, a booster pump and pipelines;

A buoyancy tank is connected to one side of the storage tank, a booster pump is connected to the top of the storage tank, a pipeline is connected to one side of the booster pump, the pipeline is connected to a connecting pipe, and an adjustment structure is arranged on the connecting pipe , one end of the connecting pipe is connected to a sewage suction port, and a quick-release structure is arranged in the sewage suction port, the quick-release structure is connected to the filter screen, and the storage box is used as a storage basis.

Preferably, the adjustment structure includes: a tooth plate, a gear, a first cavity, a first through groove, a connecting block, a motor, a placement groove, a chute, a guide wheel and a second cavity, and one side of the connecting pipe is connected to A tooth plate is provided, and a gear is connected to one side of the tooth plate in meshing engagement.

Preferably, the gear is arranged in a first cavity, and the first cavity is opened on the inner side wall of the first through groove, and a connecting pipe is connected through the first through groove, and the first through groove is opened In the connection block, the connection block is connected on one side of the storage box.

Preferably, the gear is connected to the output end of the motor, and the motor is connected to a placement slot, and the placement slot is opened on the inner wall of the first cavity, and a sliding slot is opened on the other side of the connecting pipe, and the sliding slot A guide wheel is connected in the slot, and the guide wheel is rotatably connected in the second cavity, and the second cavity is opened on the inner side wall of the first through slot.

Preferably, the quick release structure includes: a sliding chamber, a fixing rod, a fixing groove, a second through groove, a clasp, an annular groove, a card groove, a torsion spring, a plectrum and a third through groove. A sliding cavity is opened on the wall, and a fixed rod is connected through the sliding cavity.

Preferably, one end of the fixing rod is engaged and connected in a fixing groove, the fixing groove is opened on one side of the filter screen, and a second through groove is opened on the inner wall of the fixing groove.

Preferably, the other end of the fixing rod is connected to the inner wall of the snap ring, and the snap ring is snap-connected in the annular groove, and the annular groove is set on the inner wall of the sliding cavity, and the inner wall of the annular groove is opened with card slot.

Preferably, a torsion spring is engaged and connected in the card slot, a clasp is connected through the torsion spring, a plectrum is connected to one side of the clasp, and the plectrum is connected through the third through groove, The third through groove is opened on the inner side wall of the annular groove.

Compared with the prior art, the beneficial effect of the utility model is: the high-efficiency silt discharge device can drive the connecting pipe to move along the tooth plate by adjusting the gear inside the structure, so that the sewage suction port moves up and down to fit the silt at the bottom of the river On the surface, the height of the connecting pipe can be adjusted according to the height of the water surface, and the snap ring can be driven to rotate through the paddle in the quick release structure, so that the snap ring drives the fixing rod to slide along the fixing groove to a position flush with the second through groove , and then remove the filter, and at the same time, the fixing rod slides along the second through groove and disengages, so as to facilitate the removal of the filter and the effect of quick cleaning. The details are as follows:

1. It can be rotated by the motor, and the motor drives the gear to rotate. The gear drives the connecting pipe to move in the first through groove through the tooth plate, so that the guide wheel slides along the chute, so that the connecting pipe drives the suction port to move up and down, so that the equipment can Adjust the height of the connecting pipe according to the height of the water surface;

2. By turning the pick, the pick slides along the third through groove to drive the snap ring to rotate in the annular groove, so that the snap ring drives the fixed rod to slide along the sliding cavity, so that one end of the fixed rod slides along the fixed groove to the After the second slot is in the same position, remove the filter, and at the same time, the fixing rod slides along the second slot and disengages. Due to the action of the torsion spring, the fixing rod will be firmly engaged in the fixing slot. , to achieve the effect of easy filter removal and quick cleaning.

Description of drawings

Fig. 1 is the utility model storage box structural representation;

Fig. 2 is a structural schematic diagram of the sewage suction port of the utility model;

Fig. 3 is the structural representation of buoyancy box of the utility model;

Fig. 4 is the structural representation of filter screen of the present utility model;

Fig. 5 is a structural schematic diagram of the utility model clasp;

Figure 6 is an enlarged view of the structure of part A of the utility model;

Figure 7 is an enlarged view of the structure of part B of the utility model;

Fig. 8 is an enlarged view of the structure of the C part of the utility model.

In the figure: 1, storage box; 2, buoyancy tank; 3, booster pump; 4, pipeline; 5, adjustment structure; 501, tooth plate; 502, gear; 503, first cavity; 504, first through groove ;505, connection block; 506, motor; 507, placement slot; 508, chute; 509, guide wheel; 510, second cavity; 6, connecting pipe; 7, suction port; 8, quick release structure; 801 , sliding cavity; 802, fixed rod; 803, fixed groove; 804, second through groove; 805, snap ring; 806, annular groove; 807, card groove; 808, torsion spring; trough; 9, filter screen.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Please refer to Figures 1-8, the utility model provides a technical solution: a high-efficiency desilting device, including: a storage tank 1, a buoyancy tank 2, a booster pump 3 and a pipeline 4;

The buoyancy tank 2 is connected to one side of the storage tank 1, the booster pump 3 is connected to the top of the storage tank 1, the pipeline 4 is connected to the side of the booster pump 3, the pipeline 4 is connected to the connecting pipe 6, and the connecting pipe 6 is provided with an adjustment structure 5 One end of the connecting pipe 6 is connected with a sewage suction port 7, and a quick release structure 8 is arranged in the sewage suction port 7, and the quick release structure 8 is connected to the filter screen 9, and the storage box 1 is used as a storage basis.

The adjustment structure 5 includes: tooth plate 501, gear 502, first cavity 503, first through groove 504, connecting block 505, motor 506, placement groove 507, chute 508, guide wheel 509 and second cavity 510, connected One side of the tube 6 is connected with a toothed plate 501, and one side of the toothed plate 501 is meshed with a gear 502. The gear 502 is arranged in the first cavity 503, and the first cavity 503 is opened on the inner wall of the first through groove 504. A connecting pipe 6 runs through the slot 504, the first slot 504 is opened in the connecting block 505, the connecting block 505 is connected to the side of the storage box 1, the gear 502 is connected to the output end of the motor 506, and the motor 506 is connected to the placement slot 507, the placement groove 507 is provided on the inner wall of the first cavity 503, and the other side of the connecting pipe 6 is provided with a chute 508, the chute 508 is connected with a guide wheel 509, and the guide wheel 509 is rotatably connected to the second cavity 510. Inside, the second cavity 510 is set on the inner side wall of the first through groove 504, so that the equipment can adjust the height of the connecting pipe 6 according to the height of the water surface, and the gear 502 inside the adjustment structure 5 can drive the connecting pipe 6 along the tooth plate 501 Move, make the sewage suction port 7 move up and down to fit the silt surface at the bottom of the river, realize adjusting the height of the connecting pipe 6 according to the height of the water surface.

The quick release structure 8 includes: a sliding chamber 801, a fixed rod 802, a fixed groove 803, a second through groove 804, a snap ring 805, an annular groove 806, a catch groove 807, a torsion spring 808, a pick 809 and a third through groove 810, A sliding chamber 801 is provided on the inner wall of the sewage suction port 7, and a fixed rod 802 is connected through the sliding chamber 801. One end of the fixed rod 802 is snapped and connected in a fixed groove 803, and the fixed groove 803 is opened on one side of the filter screen 9. The fixed groove The inner wall of 803 is provided with a second through groove 804, the other end of the fixing rod 802 is connected to the inner wall of the snap ring 805, and the snap ring 805 is snapped and connected in the annular groove 806, and the annular groove 806 is opened on the inner wall of the sliding chamber 801. A card slot 807 is opened on the inner side wall of the annular groove 806, and a torsion spring 808 is connected to the card slot 807, and a snap ring 805 is connected through the torsion spring 808, and a paddle 809 is connected to one side of the snap ring 805, and the paddle 809 runs through Connected in the third through groove 810, the third through groove 810 is set on the inner wall of the annular groove 806, so as to facilitate the quick disassembly of the filter screen 9, and facilitate quick cleaning and dredging. The ring 805 rotates so that the snap ring 805 drives the fixing rod 802 to slide along the fixing groove 803 to a position flush with the second through groove 804, and then the filter screen 9 is removed, and the fixing rod 802 moves along the second through groove 804 Sliding inside and disengaging, realizes the effect that is convenient for the filter screen 9 to be disassembled, and is convenient for quick cleaning.

To sum up: as shown in Figure 1-8, when using this high-efficiency silt discharge device, a simple understanding of this device can be made. First, the motor 506 can rotate to drive the gear 502 to rotate, so that the gear 502 can be driven and connected by the tooth plate 501. The pipe 6 moves in the first through groove 504, so that the guide wheel 509 slides along the chute 508, so that the connecting pipe 6 drives the sewage suction port 7 to move up and down, so that the equipment can adjust the height of the connecting pipe 6 according to the height of the water surface, and then The snap ring 805 can be driven to rotate in the annular groove 806 by turning the plectrum 809 to slide along the third through groove 810, so that the snap ring 805 drives the fixed rod 802 to slide along the sliding cavity 801, so that one end of the fixed rod 802 goes along the fixed groove After the 803 slides to the position flush with the second through groove 804, the filter screen 9 is removed, and at the same time the fixing rod 802 slides along the second through groove 804 and disengages. Due to the effect of the torsion spring 808, the fixing rod will 802 is firmly engaged in the fixing groove 803, so as to facilitate the disassembly of the filter screen 9 and the effect of quick cleaning. The content not described in detail in this specification belongs to the prior art known to those skilled in the art.

Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some technical features, where Within the spirit and principles of the present utility model, any modification, equivalent replacement, improvement, etc. should be included in the protection scope of the present utility model.

Claims (8)

1. A high-efficiency desilting device, comprising: a storage tank (1), a buoyancy tank (2), a booster pump (3) and a pipeline (4), characterized in that; A buoyancy tank (2) is connected to one side of the storage tank (1), a booster pump (3) is connected above the storage tank (1), and a pipeline (4) is connected to one side of the booster pump (3) , the pipeline (4) is connected to a connecting pipe (6), the connecting pipe (6) is provided with an adjustment structure (5), one end of the connecting pipe (6) is connected to a sewage suction port (7), the A quick-release structure (8) is arranged in the sewage suction port (7), and the quick-release structure (8) is connected to the filter screen (9). 2. A high-efficiency desilting device according to claim 1, characterized in that: the adjustment structure (5) includes: a tooth plate (501), a gear (502), a first cavity (503), a first Through slot (504), connecting block (505), motor (506), placement slot (507), chute (508), guide wheel (509) and second cavity (510), the connecting pipe (6) A tooth plate (501) is connected to one side, and a gear (502) is meshed with one side of the tooth plate (501). 3. A high-efficiency desilting device according to claim 2, characterized in that: the gear (502) is set in the first cavity (503), and the first cavity (503) is opened in the first On the inner side wall of the through groove (504), a connecting pipe (6) is connected through the first through groove (504), and the first through groove (504) is opened in the connecting block (505), and the connecting block (505) is connected on one side of the storage box (1). 4. A high-efficiency desilting device according to claim 3, characterized in that: the gear (502) is connected to the output end of the motor (506), and the motor (506) is connected in the placement groove (507), The placing groove (507) is set on the inner wall of the first cavity (503), and the other side of the connecting pipe (6) is set with a chute (508), and a guide wheel is connected in the chute (508) (509), the guide wheel (509) is rotatably connected in the second cavity (510), and the second cavity (510) is opened on the inner side wall of the first through groove (504). 5. A high-efficiency desilting device according to claim 1, characterized in that: the quick release structure (8) includes: a sliding chamber (801), a fixing rod (802), a fixing groove (803), a second Through groove (804), snap ring (805), annular groove (806), draw-in groove (807), torsion spring (808), plectrum (809) and the 3rd through groove (810), described dirt suction mouth ( 7) A sliding cavity (801) is opened on the inner side wall, and a fixing rod (802) is connected through the sliding cavity (801). 6. A high-efficiency desilting device according to claim 5, characterized in that: one end of the fixing rod (802) is engaged and connected in the fixing groove (803), and the fixing groove (803) is opened in the filter screen (9) On one side, a second through groove (804) is opened on the inner wall of the fixing groove (803). 7. A high-efficiency desilting device according to claim 6, characterized in that: the other end of the fixed rod (802) is connected to the inner wall of the snap ring (805), and the snap ring (805) is snap-connected In the annular groove (806), the annular groove (806) is opened on the inner side wall of the sliding chamber (801), and the inner side wall of the annular groove (806) is opened with a locking groove (807). 8. A high-efficiency desilting device according to claim 7, characterized in that: a torsion spring (808) is engaged and connected in the slot (807), and a torsion spring (808) is connected through the torsion spring (808). Ring (805), one side of the snap ring (805) is connected with a plectrum (809), and the plectrum (809) is connected through the third through groove (810), and the third through groove (810) Set on the inner wall of the annular groove (806).

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