CN219033352U

CN219033352U - Port channel dredging device

Info

Publication number: CN219033352U
Application number: CN202222157375.1U
Authority: CN
Inventors: 田堯鑫; 国利; 韩冬
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-16
Filing date: 2022-08-16
Publication date: 2023-05-16
Anticipated expiration: 2032-08-16

Abstract

The utility model discloses a port channel dredging device, which relates to the field of dredging devices and comprises an equipment box body, a machine cabin, an operation box and an electric telescopic rod, wherein the machine cabin extending to the outer side of the equipment box body is arranged in the equipment box body, the operation box is arranged at the top end of the equipment box body, and the electric telescopic rod is arranged in the operation box body. According to the utility model, the second gear rotates to drive the second rotating shaft sleeved on the inner wall of the second gear to rotate, the second rotating shaft rotates to drive the rolling shaft sleeved on the outer wall of the second rotating shaft to rotate, the rolling shaft rotates to break up the agglomerated sludge on the seabed, an operator starts the sludge pumping pump, the pumping end of the sludge pumping pump pumps water, the broken sludge is shoveled into the box body of the equipment through the shovel plate, and the sludge is pumped into the sludge pumping pump through the pumping pipe through the pumping groove, so that the agglomerated sludge on the seabed can be pumped out, the seabed cleaning force is improved, and the dredging effect is enhanced.

Description

Port channel dredging device

Technical Field

The utility model relates to the technical field of dredging devices, in particular to a port channel dredging device.

Background

Along with the continuous improvement of the living standard of people, the development of the production technology is better and better, the utilization of the living time of people is more and more severe, the requirements of people on equipment are higher and higher in life, the work efficiency of the equipment is expected to be improved through innovation of the equipment, the working time is reduced, the use efficiency is improved, the greatest value is brought into play, along with the development of technology, a port channel dredging device is developed to a great extent, great convenience is brought to people in the sailing process of ships by the development of the port channel dredging device, and the variety and the number of the port channel dredging device are increasing.

The port channel dredging device in the current market is extremely widely used, china now becomes the largest trade country in the world, one fifth of import and export trade in the world is on each port in our country, the port is an important key for navigation trade, the channel depth directly determines the trade volume of the port, sediment can be gradually accumulated in the channel at the port along with the continuous movement of the ship, and the channel depth is reduced after a long time, so that dredging is required.

The device for dredging the port channel on the market has the defect that the sludge on the seabed is easy to agglomerate, and the existing device for dredging the port channel is difficult to treat the agglomerated sludge, so that the agglomerated sludge blocks a sludge pumping pipeline in the device, the working efficiency is reduced, the equipment is also easy to damage, and secondly, a large amount of seawater is contained in the sludge pumped by the equipment and is pumped out by a dredging ship together with the sludge, the working efficiency of the equipment is reduced, a large amount of manpower, material resources and time are wasted, and the device for dredging the port channel at present is improved.

Disclosure of Invention

The utility model aims to provide a port channel dredging device, which aims to solve the problem that the prior port channel dredging device on the market provided by the background technology is difficult to treat agglomerated sludge and the working efficiency is affected due to the fact that a large amount of seawater is contained in the agglomerated sludge.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a harbour channel dredging device, includes equipment box, machine storehouse, operation box, electric telescopic handle, the inside of equipment box is provided with the machine storehouse that extends to the equipment box outside, the top of equipment box is provided with the operation box, the internally mounted of operation box has electric telescopic handle.

Preferably, the inside of equipment box is including shovel board, net baffle, first connecting rope, second connecting rope, first pivot and gyro wheel, the inside of equipment box is provided with the shovel board that extends to the equipment box bottom outside, one side of equipment box is provided with the net baffle, the outer wall of equipment box is provided with first connecting rope, the outer wall of operation box is provided with the second connecting rope of being connected with first connecting rope, the bottom of equipment box is provided with first pivot, the outer wall cover at first pivot both ends is equipped with the gyro wheel.

Preferably, the inside of machine storehouse is including motor, first gear, chain, second gear, second pivot and roller bearing, the internally mounted of machine storehouse has the motor, the outer wall cover of motor output is equipped with first gear, the outer wall cover of first gear is equipped with the chain, the inner wall cover that first gear one side was kept away from to the chain is equipped with the second gear, the inner wall cover of second gear is equipped with the second pivot that extends to the inside of equipment box, and the both ends of second pivot rotate with the inner wall of equipment box and be connected, the outer wall of second pivot is located the inside of equipment box and is provided with the roller bearing that extends to the equipment box bottom outside.

Preferably, the inside of operation box is including logical groove base, extraction pipe, suction pump, suction pipe and suction groove, the bottom that the bottom of operation box inner wall is located electric telescopic handle is provided with logical groove base, the top of logical groove base is located one side of electric telescopic handle and is provided with the extraction pipe, the suction pump is installed on the top of logical groove base, the suction end of suction pump is provided with the suction pipe that extends to the inside of equipment box, the bottom of suction pipe is located the inside of equipment box and is provided with the suction groove, the drainage pot head that is provided with suction pump is equipped with the check valve.

Preferably, the inside of electric telescopic handle is including elastic cord, air balloon, drainage pipe, first spliced pole, drain pan, second spliced pole and drain pipe, the top of electric telescopic handle output is provided with the elastic cord, the top of elastic cord is provided with the air balloon, the outer wall cover of air balloon is equipped with the drainage pipe, the outer wall cover of drainage pipe is equipped with the first spliced pole that extends to the drainage pipe bottom outside, and first spliced pole inner wall is provided with the branch of being connected with the second section of electric telescopic handle, the outer wall cover of first spliced pole is equipped with the drain pan, the outer wall cover of drain pan is equipped with the second spliced pole that is connected with the tank bottom seat top, the top of second spliced pole is located the outer wall of first spliced pole and is provided with the second spliced pole that extends to the operation box top outside.

Compared with the prior art, the utility model has the beneficial effects that:

1. when the seabed is the silt of caking, operating personnel start the motor, the output of motor rotates, the output of motor drives first gear and rotates, first gear rotates and pulls the chain to rotate, the chain rotates and pulls the second gear that keeps away from first gear one side and rotate, the second gear rotates and drives the second pivot that second gear inner wall cover was established and rotate, the second pivot rotates and drives the roller bearing that second pivot outer wall cover was established and rotate, the roller bearing rotates the silt of caking on the seabed and breaks up, operating personnel opens the suction pump, the suction end of suction pump draws water, the silt of breaking up is got into the inside of equipment box by the shovel board, the silt is drawn into the suction pump inside by the suction pipe through the suction groove, make seabed caking's silt also can be taken out, the clean dynamics to seabed is improved, the effect of dredging has been strengthened.

2. The operating personnel will start the mud pump, and the suction that the pumping end of mud pump produced is through the silt of suction pipe with the inside mud pump of pumping groove to the inside of mud pump, and silt is discharged through the drainage end of mud pump, and the check valve control silt can not cause the condition of countercurrent, improves the effect of equipment on the silt extraction to seabed.

3. When the silt to be taken out is drained, operating personnel opens the electric telescopic rod, the output end of the electric telescopic rod ascends, the second supporting rod of the electric telescopic rod pushes the supporting rod to ascend, the first connecting column ascends, the air ball floats in the interior of the water filtering pipe because of the buoyancy that the air in the air ball plays, the silt enters the interior of the second connecting column through the mud pumping pump, a large amount of seawater is contained in the silt, the seawater enters the interior of the water filtering pipe through the first connecting column, the seawater flows to the inside of the drain pipe through the gap between the water filtering pipe and the air ball, the seawater is discharged to the outside through the drain pipe, when the silt in the second connecting column needs to be taken out, the electric telescopic rod is closed, the output end of the electric telescopic rod descends, the output end pulls the elastic rope descends, the air ball descends to pull the first connecting column, the first connecting column descends to pull the drain pan, the drain pan pushes the water into the through groove of the through the water filtering pipe, the silt is discharged to the interior of the water filtering pipe through the water filtering pipe, the water content of the silt is lowered, and the dredge is lowered by the dredger is achieved, and the water content of the dredger is lowered.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a side view of the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

fig. 4 is a schematic diagram of the connection of the equipment box and the machine cabin.

In the figure: 1. an equipment box; 101. a shovel plate; 102. a grid baffle; 103. a first connecting rope; 104. a second connecting rope; 105. a first rotating shaft; 106. a roller; 2. a machine cabin; 201. a motor; 202. a first gear; 203. a chain; 204. a second gear; 205. a second rotating shaft; 206. a roller; 3. an operation box; 301. a through groove base; 302. a withdrawal pipe; 303. a mud pump; 304. a suction pipe; 305. drawing in the groove; 4. an electric telescopic rod; 401. an elastic rope; 402. an air balloon; 403. a water filtering pipe; 404. a first connection post; 405. a drain pan; 406. a second connection post; 407. and (5) a water drain pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution:

the utility model provides a harbour channel dredging device, includes equipment box 1, machine storehouse 2, operation box 3, electric telescopic handle 4, the inside of equipment box 1 is provided with the machine storehouse 2 that extends to the equipment box 1 outside, the top of equipment box 1 is provided with operation box 3, the internally mounted of operation box 3 has electric telescopic handle 4.

The inside of equipment box 1 is including shovel board 101, net baffle 102, first connecting rope 103, second connecting rope 104, first pivot 105 and gyro wheel 106, the inside of equipment box 1 is provided with the shovel board 101 that extends to equipment box 1 bottom outside, one side of equipment box 1 is provided with net baffle 102, the outer wall of equipment box 1 is provided with first connecting rope 103, the outer wall of operation box 3 is provided with the second connecting rope 104 of being connected with first connecting rope 103, the bottom of equipment box 1 is provided with first pivot 105, the outer wall cover at first pivot 105 both ends is equipped with gyro wheel 106, and when needs to be the silt that the seabed is the caking to absorb, operating personnel opens motor 201, and the output of motor 201 drives first gear 202 and rotates, and first gear 202 rotates and pulls chain 203 and rotates, and second gear 204 rotates and drives second gear 204 inner wall 205 that second gear 204 inner wall cover was equipped with and connects the second connecting rope 104, and the second pump that the silt pump is equipped with the second pivot 205 is rotated to the second pivot 205 is driven to carry out the silt pump inside the silt, and the silt pump is driven by the second pivot 205 is driven to carry out the silt pump inside the silt pump, and the silt pump is driven by the silt pump inside the silt pump 303 has been opened to the silt pump, and the silt pump inside the silt pump is driven by the silt pump inside the silt pump's of the silt pump's has been improved.

The inside of machine storehouse 2 is including motor 201, first gear 202, chain 203, second gear 204, second pivot 205 and roller bearing 206, the internally mounted of machine storehouse 2 has motor 201, the outer wall cover of motor 201 output is equipped with first gear 202, the outer wall cover of first gear 202 is equipped with chain 203, the inner wall cover that first gear 202 one side was kept away from to chain 203 is equipped with second gear 204, the inner wall cover of second gear 204 is equipped with the second pivot 205 that extends to the inside of equipment box 1, and the both ends of second pivot 205 rotate with the inner wall of equipment box 1 and be connected, the outer wall of second pivot 205 is located the inside of equipment box 1 and is provided with the roller bearing 206 that extends to the outside of equipment box 1 bottom.

The inside of operation box 3 is including logical groove base 301, suction pipe 302, muddy water pump 303, suction pipe 304 and suction groove 305, the bottom of operation box 3 inner wall is located the bottom of electric telescopic handle 4 and is provided with logical groove base 301, the top of logical groove base 301 is located one side of electric telescopic handle 4 and is provided with suction pipe 302, muddy water pump 303 is installed on the top of logical groove base 301, the pumping end of muddy water pump 303 is provided with the suction pipe 304 that extends to the inside of equipment box 1, the bottom of suction pipe 304 is located the inside of equipment box 1 and is provided with suction groove 305, the drainage pot head that is provided with muddy water pump 303 is equipped with the check valve, and the operating personnel will start muddy water pump 303, and the suction that the pumping end of muddy water pump 303 produced is through suction pipe 304 will be pumped the inside muddy water pump 303, and the muddy water pump 303 is discharged through the drainage end of muddy water pump 303, and the condition that the check valve control muddy water can not cause the back flow can improve equipment in the effect to the muddy water on the seabed.

The inside of the electric telescopic rod 4 comprises an elastic rope 401, an air ball 402, a water filtering pipe 403, a first connecting column 404, a drain disc 405, a second connecting column 406 and a drain pipe 407, the top end of the output end of the electric telescopic rod 4 is provided with the elastic rope 401, the top end of the elastic rope 401 is provided with the air ball 402, the outer wall of the air ball 402 is sleeved with the water filtering pipe 403, the outer wall of the water filtering pipe 403 is sleeved with the first connecting column 404 extending to the outer side of the bottom end of the water filtering pipe 403, the inner wall of the first connecting column 404 is provided with a supporting rod connected with a second branch of the electric telescopic rod 4, the outer wall of the first connecting column 404 is sleeved with the drain disc 405, the outer wall of the drain disc 405 is sleeved with the second connecting column 406 connected with the top end of the through groove base 301, the outer wall of the second connecting column 406 positioned at the top end of the first connecting column 404 is provided with the second connecting column 406 extending to the outer side of the top end of the operation box 3, when the pumped out sludge is needed to be drained, an operator starts the electric telescopic rod 4, the output end of the electric telescopic rod 4 rises, the second supporting rod of the electric telescopic rod 4 pushes the supporting rod to rise, the supporting rod pushes the first connecting column 404 to rise, the first connecting column 404 rises, the air ball 402 floats in the water filtering pipe 403 due to the buoyancy of the air in the air ball 402, the sludge enters the second connecting column 406 through the sludge pumping pump 303, a large amount of seawater is contained in the sludge, the seawater enters the water filtering pipe 403 through the first connecting column 404, the seawater flows into the drain pipe 407 through a gap between the water filtering pipe 403 and the air ball 402, the seawater is discharged to the outside through the drain pipe 407, when the sludge in the second connecting column 406 is needed to be pumped out, the electric telescopic rod 4 is closed, the output end of the electric telescopic rod 4 falls, the output pulls the elastic rope 401 to descend, the elastic rope 401 descends to pull the air ball 402 to descend, the air ball 402 descends to pull the first connecting column 404 to descend by descending of the second branch joint of the electric telescopic rod 4, the first connecting column 404 descends to pull the drain pan 405 to descend, the drain pan 405 pushes silt to enter the through groove of the through groove base 301, the silt enters the interior of the extraction pipe 302 through the through groove base 301 and is extracted by a dredging ship through the extraction pipe 302, the water content of the extracted silt becomes low, the dredging work efficiency is improved, meanwhile, the cleaning of a route is improved, and the use of manpower and material resources is reduced.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims

1. The utility model provides a harbour channel desilting device, includes equipment box (1), quick-witted storehouse (2), control box (3), electric telescopic handle (4), its characterized in that: the automatic control device is characterized in that a cabin (2) extending to the outer side of the equipment box body (1) is arranged in the equipment box body (1), an operation box (3) is arranged at the top end of the equipment box body (1), and an electric telescopic rod (4) is arranged in the operation box (3).

2. A port channel dredging arrangement according to claim 1, characterized in that: the inside of equipment box (1) is including shovel board (101), net baffle (102), first connecting rope (103), second connecting rope (104), first pivot (105) and gyro wheel (106), the inside of equipment box (1) is provided with shovel board (101) that extends to equipment box (1) bottom outside, one side of equipment box (1) is provided with net baffle (102), the outer wall of equipment box (1) is provided with first connecting rope (103), the outer wall of operation box (3) is provided with second connecting rope (104) that are connected with first connecting rope (103), the bottom of equipment box (1) is provided with first pivot (105), the outer wall cover at first pivot (105) both ends is equipped with gyro wheel (106).

3. A port channel dredging arrangement according to claim 1, characterized in that: the inside of machine storehouse (2) is including motor (201), first gear (202), chain (203), second gear (204), second pivot (205) and roller bearing (206), the internally mounted of machine storehouse (2) has motor (201), the outer wall cover of motor (201) output is equipped with first gear (202), the outer wall cover of first gear (202) is equipped with chain (203), the inner wall cover that first gear (202) one side was kept away from to chain (203) is equipped with second gear (204), the inner wall cover of second gear (204) is equipped with second pivot (205) that extend to the inside of equipment box (1), and the both ends of second pivot (205) are rotated with the inner wall of equipment box (1) and are connected, the inside that the outer wall of second pivot (205) is located equipment box (1) is provided with roller bearing (206) that extend to the outside of equipment box (1) bottom.

4. A port channel dredging arrangement according to claim 1, characterized in that: the inside of operation box (3) is including logical groove base (301), suction pipe (302), suction pump (303), suction pipe (304) and suction groove (305), the bottom that the bottom of operation box (3) inner wall is located electric telescopic handle (4) is provided with logical groove base (301), the top that leads to groove base (301) is located one side of electric telescopic handle (4) and is provided with suction pipe (302), suction pump (303) are installed on the top of logical groove base (301), the suction end of suction pump (303) is provided with suction pipe (304) that extend to the inside of equipment box (1), the bottom of suction pipe (304) is provided with suction groove (305) in the inside of equipment box (1), the drainage pot head that is provided with suction pump (303) is equipped with the check valve.

5. A port channel dredging arrangement according to claim 1, characterized in that: the inside of electric telescopic handle (4) is including elastic cord (401), air ball (402), drainage pipe (403), first spliced pole (404), drain pan (405), second spliced pole (406) and drain pipe (407), the top of electric telescopic handle (4) output is provided with elastic cord (401), the top of elastic cord (401) is provided with air ball (402), the outer wall cover of air ball (402) is equipped with drainage pipe (403), the outer wall cover of drainage pipe (403) is equipped with first spliced pole (404) that extend to the outside of drainage pipe (403) bottom, and first spliced pole (404) inner wall is provided with the branch of being connected with the second section of electric telescopic handle (4), the outer wall cover of first spliced pole (404) is equipped with drain pan (405), the outer wall cover of drain pan (405) is equipped with second spliced pole (406) that are connected with logical groove base (301) top, the top of second spliced pole (406) is located the outer wall of first spliced pole (404) is provided with the second spliced pole (406) that extend to operation case (3).