CN217352659U - Efficient river channel desilting system - Google Patents
Efficient river channel desilting system Download PDFInfo
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- CN217352659U CN217352659U CN202221189583.3U CN202221189583U CN217352659U CN 217352659 U CN217352659 U CN 217352659U CN 202221189583 U CN202221189583 U CN 202221189583U CN 217352659 U CN217352659 U CN 217352659U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
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Abstract
The application discloses efficient river course desilting system relates to river course desilting technical field, which comprises a ship body, the dredge pump is installed to the one end at hull top, the filter-tank is installed to the other end at hull top, be connected with defeated mud pipe between the output of filter-tank and dredge pump, the bottom that defeated mud pipe one side was kept away from to the filter-tank is connected with the drain pipe, the one end of hull bottom is connected with takes out the mud seat, take out the bottom of mud seat and install the suction head, the one end of taking out the mud seat is connected with the dredge pipe with the input of dredge pump, lifting unit is installed to the inner chamber of hull, driving motor is installed to lifting unit's bottom, driving motor's output is installed the (mixing) shaft, the (mixing) shaft bottom is stretched out the hull and is connected with stirring rod. This application sets up through the cooperation that stirs garrulous pole, (mixing) shaft and driving motor for can drive a plurality of garrulous poles of stirring when the (mixing) shaft rotates and stir the bits of broken glass fast with the debris in the river course, avoid as far as possible when extracting silt, the condition of jam appears in defeated mud pipe and the inside of taking out the mud pipe.
Description
Technical Field
The application relates to the technical field of river channel desilting, especially relates to an efficient river channel desilting system.
Background
River regulation is an engineering measure for controlling and modifying river channels, and the river channels are not treated for a long time, so that a large amount of sludge and garbage are deposited at the bottoms of the river channels, the water quality of the river channels is seriously influenced, the sludge and the garbage at the bottoms of the river channels need to be treated regularly, the river channels are guaranteed to be clean, and when the sludge in the river channels is cleaned, the sludge is generally cleared by a river channel dredging device.
In realizing this application in-process, the inventor finds that there is following problem at least in this technique, can have some bulky, harder debris in the partial river course of current, and the device can't be handled solid debris to make debris get into the inside of dredge pump, cause the inside condition of blockking up of device easily, and then reduced the desilting efficiency of device.
SUMMERY OF THE UTILITY MODEL
In order to improve and to have some bulky, harder debris in the current partial river course of above-mentioned, the device can't handle solid debris to make debris get into the inside of dredge pump, cause the inside condition of blockking up that appears of device easily, and then reduced the problem of the desilting efficiency of device, this application provides an efficient river course desilting system.
The application provides an efficient river channel desilting system adopts following technical scheme:
the utility model provides an efficient river course desilting system, includes the hull, the dredge pump is installed to the one end at hull top, the filter-tank is installed to the other end at hull top, the filter-tank with be connected with defeated mud pipe between the output of dredge pump, the filter-tank is kept away from the bottom of defeated mud pipe one side is connected with the drain pipe, the one end of hull bottom is connected with takes out the mud seat, take out the bottom of mud seat and install the suction head, take out the mud seat one end with the input of dredge pump is connected with takes out the mud pipe, elevating assembly is installed to the inner chamber of hull, driving motor is installed to elevating assembly's bottom, driving motor's output is installed the (mixing) shaft, stretch out the (mixing) shaft bottom the hull is connected with stirs garrulous pole, the (mixing) shaft with sealing connection between the hull.
Through adopting above-mentioned technical scheme, start driving motor through the controller, driving motor during operation drives the (mixing) shaft and rotates, can drive a plurality of stirring garrulous poles when making the (mixing) shaft rotate and stir garrulous with the debris in the river course fast, avoid when extracting silt as far as possible, mud conveying pipe and the inside condition that blocks up that appears of mud pumping pipe, then start the dredge pump through the controller, the dredge pump is through taking out the mud pipe, take out mud seat and suction head and extract the river water that contains silt mud, and carry to the inside of filter-tank through mud conveying pipe, finally discharge once more in the river course through the drain pipe.
Optionally, a first supporting plate is installed at one end, close to the mud pumping pipe, of the ship body, a first pipe buckle matched with the mud pumping pipe is connected to the surface of the first supporting plate, a second supporting plate is installed at one end, close to the mud conveying pipe, of the top of the ship body, and a second pipe buckle matched with the mud conveying pipe is connected to the surface of the second supporting plate.
Through adopting above-mentioned technical scheme, through the setting of first pipe strap, can be fixed with taking out the mud pipe, through the setting of second pipe strap, can be fixed with defeated mud pipe to make defeated mud pipe and the result of use of taking out mud pipe better.
Optionally, the lifting assembly comprises a connecting plate, the connecting plate is installed at two ends of the inner cavity of the ship body, first electric push rods are installed at two ends of the top of the inner cavity of the ship body, the lifting plate is installed at the output end of each first electric push rod and located between the two connecting plates, and the bottom of the lifting plate is fixedly connected with the top of the driving motor.
Through adopting above-mentioned technical scheme, first electric putter starts and can drive the lifter plate and remove right, and the lifter plate drives driving motor and moves down to can carry out the desilting work to the river course of the different degree of depth.
Optionally, sliding assemblies are installed at two ends of the lifting plate, the sliding assemblies comprise sliding blocks, the sliding blocks are installed at two ends of the lifting plate respectively, sliding grooves are formed in the inner sides of the connecting plates, and the sliding blocks are connected with the sliding grooves in a sliding mode.
Through adopting above-mentioned technical scheme, when the lifter plate is reciprocating, the slider slides in the inside of spout to can make the lifter plate more steady at the in-process that removes.
Optionally, a filter assembly is installed in the inner cavity of the filter tank, the filter assembly comprises a first filter screen plate, the first filter screen plate is installed at the top of the inner cavity of the filter tank, the inner cavity of the filter tank is far away from one end of the first filter screen plate, a second filter screen plate is installed at one end of the first filter screen plate, and the mesh aperture of the first filter screen plate is larger than that of the second filter screen plate. .
Through adopting above-mentioned technical scheme, through the setting of first filter plate, can filter the large granule impurity of river aquatic, through the setting of second filter plate, can filter the great granule impurity gold of river aquatic.
Optionally, first filter plate with the second filter plate is close to coupling assembling is all installed, and is two sets of coupling assembling all includes the connecting block, and is two sets of the connecting block is installed respectively first filter plate with the second filter plate is close to the one end of defeated mud pipe, the filter tank inner chamber is close to the one end of defeated mud pipe is installed respectively with two sets of the connecting cell body that the connecting block matches each other, first filter plate with the second filter plate is kept away from the one end of connecting block all stretches out the filter tank and installs the arm-tie.
Through adopting above-mentioned technical scheme, after the device work finishes, pulling the arm-tie right, the arm-tie drives first filter screen board and second and filters the otter board and remove right for the connecting block with be connected the cell body separation, conveniently filter the otter board to first filter screen board and second and dismantle and clear up.
Optionally, the filter tank inner chamber is close to two sets of flexible subassembly is all installed to the one end of connecting the cell body, and is two sets of flexible subassembly all includes second electric putter, and is two sets of second electric putter installs respectively the filter tank inner chamber is close to two sets of the one end of connecting the cell body, it is two sets of the push pedal is all installed to second electric putter's output.
Through adopting above-mentioned technical scheme, second electric putter stretches out and drives the push pedal and remove rightwards to can push impurity to one side.
Optionally, spacing subassembly is all installed at the both ends of push pedal, and is two sets of spacing subassembly all includes the stopper, and is two sets of the stopper is installed respectively the both ends of push pedal, the filter-tank inner chamber is close to the spacing groove has been seted up to the one end of push pedal, the stopper with be sliding connection between the spacing groove.
Through adopting above-mentioned technical scheme, when the push pedal is when removing, the stopper slides in the inside of spacing groove to make the push pedal more steady when removing.
In summary, the present application includes at least one of the following benefits:
(1) through stirring garrulous pole, (mixing) shaft and driving motor's cooperation setting for can drive a plurality of garrulous poles of stirring when the (mixing) shaft rotates and stir garrulous with the debris in the river course fast, avoid as far as possible when extracting silt, the condition of jam appears in defeated mud pipe and the inside of taking out mud pipe, has improved the practicality of device.
(2) Through hull, filter-tank and filtering component cooperation setting, be convenient for filter the water in the silt through filtering component to discharge into the river course once more through the hull in, thereby filter the moisture in the silt and discharge again, have certain feature of environmental protection.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.
FIG. 1 is a schematic overall structure of the present application;
fig. 2 is a schematic top view of the filter tank of the present application.
In the figure: 1. a mud conveying pipe; 2. a mud pump; 3. a lifting assembly; 301. a connecting plate; 302. a first electric push rod; 303. a lifting plate; 4. a sliding assembly; 401. a slider; 402. a chute; 5. a mud pumping pipe; 6. a first support plate; 7. a first pipe buckle; 8. a mud pumping seat; 9. a suction head; 10. a stirring and crushing rod; 11. a stirring shaft; 12. a hull; 13. a drive motor; 14. a drain pipe; 15. a filter tank; 16. a filter assembly; 1601. a first filter screen plate; 1602. a second filter screen plate; 17. a telescopic assembly; 1701. pushing the plate; 1702. a second electric push rod; 18. a connection assembly; 1801. connecting blocks; 1802. connecting the trough bodies; 19. a second pipe buckle; 20. a second support plate; 21. a limiting component; 2101. a limiting block; 2102. a limiting groove; 22. and (5) pulling the plate.
Detailed Description
The present application is described in further detail below with reference to figures 1-2.
Referring to fig. 1 of the drawings, the present application provides an embodiment: the utility model provides an efficient river course desilting system, including hull 12, the one end fixed mounting at hull 12 top has mud pump 2, the other end fixed mounting at hull 12 top has filter tank 15, filtering component 16 is installed to the inner chamber of filter tank 15, filtering component 16 includes first filter screen 1601, first filter screen 1601 horizontal installation is at the top of filter tank 15 inner chamber, the one end horizontal installation that first filter screen 1601 was kept away from in the 15 inner chamber of filter tank has second filter screen 1602, the mesh aperture of first filter screen 1601 is greater than the mesh aperture of second filter screen 1602. Through the setting of first filter screen 1601, can filter the large granule impurity in the river water, through the setting of second filter screen 1602, can filter the great granule impurity in the river water.
Please refer to fig. 1 and fig. 2 in the drawings of the specification, a connection assembly 18 is installed at one end of each of the first filter screen 1601 and the second filter screen 1602 close to the mud pipe 1, each of the two connection assemblies 18 includes a connection block 1801, the two connection blocks 1801 are respectively and fixedly installed at one ends of the first filter screen 1601 and the second filter screen 1602 close to the mud pipe 1, a connection tank 1802 mutually matched with the two connection blocks 1801 is respectively installed at one end of an inner cavity of the filter tank 15 close to the mud pipe 1, and one ends of the first filter screen 1601 and the second filter screen 1602 far from the connection block 1801 extend out of the filter tank 15 and are fixedly installed with a pulling plate 22. After the device work, pulling arm-tie 22 right, arm-tie 22 drives first filter screen 1601 and second filter screen 1602 and moves right for connecting block 1801 separates with connecting cell body 1802, conveniently filters first filter screen 1601 and second filter screen 1602 and dismantles and clear up.
Referring to fig. 1 and fig. 2 in the drawings of the specification, telescopic assemblies 17 are mounted at one ends of the inner cavities of the filter tanks 15 close to the two sets of connecting tank bodies 1802, each telescopic assembly 17 comprises a second electric push rod 1702, the two sets of second electric push rods 1702 are respectively mounted at one ends of the inner cavities of the filter tanks 15 close to the two sets of connecting tank bodies 1802, and push plates 1701 are mounted at output ends of the two sets of second electric push rods 1702. The second electric push rod 1702 is extended to move the push plate 1701 to the right, thereby pushing the foreign matter to one side. Spacing subassembly 21 is all installed at the both ends of push pedal 1701, and two sets of spacing subassemblies 21 all include stopper 2101, and two sets of stopper 2101 are installed respectively at the both ends of push pedal 1701, and the spacing groove 2102 has been seted up to the one end that the filter tank 15 inner chamber is close to push pedal 1701, is sliding connection between stopper 2101 and the spacing groove 2102. When the push plate 1701 is moving, the stopper 2101 slides inside the stopper groove 2102, thereby making the push plate 1701 more stable when moving.
Please refer to fig. 1 in the attached drawings of the specification, a mud conveying pipe 1 is connected between a filter tank 15 and an output end of a mud pump 2, a drain pipe 14 is fixedly connected to the bottom of the filter tank 15 far away from one side of the mud conveying pipe 1, and filtered river water can be discharged into a river channel again through the drain pipe 14. The one end of 12 bottoms of hull is connected with takes out mud seat 8, take out the bottom of mud seat 8 and install suction head 9, the one end of taking out mud seat 8 is connected with the input of taking out mud pump 2 and takes out mud pipe 5, first backup pad 6 is installed near the one end of taking out mud pipe 5 to hull 12, the surface of first backup pad 6 is connected with and takes out the first pipe of mud pipe 5 mutual matching and detains 7, second backup pad 20 is installed near the one end of defeated mud pipe 1 in hull 12 top, the surface of second backup pad 20 is connected with and detains 19 with defeated mud pipe 1 mutual matching's second pipe. Through the setting of first pipe strap 7, can be fixed with taking out mud pipe 5, through the setting of second pipe strap 19, can be fixed with defeated mud pipe 1 to make defeated mud pipe 1 and the result of use of taking out mud pipe 5 better.
Please refer to fig. 1 in the drawings of the specification, a lifting assembly 3 is installed in an inner cavity of a hull 12, a driving motor 13 is installed at the bottom of the lifting assembly 3, the lifting assembly 3 includes connecting plates 301, the connecting plates 301 are installed at two ends of the inner cavity of the hull 12, first electric push rods 302 are installed at two ends of the top of the inner cavity of the hull 12, a lifting plate 303 is installed at an output end of the first electric push rods 302, the lifting plate 303 is located between the two groups of connecting plates 301, and the bottom of the lifting plate 303 is fixedly connected with the top of the driving motor 13. First electric putter 302 starts and to drive lifter plate 303 and remove right, and lifter plate 303 drives driving motor 13 and removes downwards to can carry out the desilting work to the river course of the different degree of depth.
Referring to fig. 1 in the drawings of the specification, the two ends of the lifting plate 303 are both provided with the sliding assemblies 4, the two sets of sliding assemblies 4 each include a sliding block 401, the two sets of sliding blocks 401 are respectively installed at the two ends of the lifting plate 303, the inner sides of the two sets of connecting plates 301 are both provided with sliding grooves 402, and the two sets of sliding blocks 401 and the two sets of sliding grooves 402 are both in sliding connection. When the lifting plate 303 moves up and down, the slider 401 slides inside the sliding groove 402, so that the lifting plate 303 can be more stable in the moving process. (mixing) shaft 11 is installed to driving motor 13's output, and (mixing) shaft 11 bottom stretches out hull 12 and is connected with a plurality of stirring garrulous pole 10, sealing connection between (mixing) shaft 11 and the hull 12, and driving motor 13 during operation drives (mixing) shaft 11 and rotates, and (mixing) shaft 11 rotates and drives a plurality of stirring garrulous pole 10 rotations, stirs garrulous to silt, appears the condition of jam when avoiding extracting river as far as possible.
The working principle is as follows: when using the device, can remove on the river surface through paddling hull 12, can start driving motor 13 through the controller, driving motor 13 during operation drives (mixing) shaft 11 and rotates, (mixing) shaft 11 rotates and drives a plurality of stirring rod 10 and rotate the debris stirring in the river course and smash, avoid as far as possible when extracting silt, the condition that the jam appears in defeated mud pipe 1 and mud pipe 5 inside, and start mud pump 2 through the controller, mud pump 2 is through taking out mud pipe 5, take out mud seat 8 and suction head 9 and extract the river water that contains the silt, and carry to the inside of lauter tun 15 through defeated mud pipe 1.
The device is at the in-process of work, can start first electric putter 302 through the controller, and first electric putter 302 drives lifter plate 303 downstream, and lifter plate 303 drives driving motor 13 and (mixing) shaft 11 downstream, and then can stir the debris of the different degree of depth and smash excellent in use effect.
When river water passes through the first filter screen plate 1601, large-particle impurities contained in the river water are filtered, when the river water passes through the second filter screen plate 1602, small-particle impurities contained in the river water are filtered, meanwhile, in the filtering process, the second electric push rod 1702 is started through the controller, the second electric push rod 1702 stretches out to drive the push plate 1701 to move rightwards, so that the impurities can be pushed to one side, the filtering effects of the first filter screen plate 1601 and the second filter screen plate 1602 are improved, and finally, the filtered river water is discharged into a river channel through the drain pipe 14 again, and the river water filtering device has certain environmental protection.
After the device work, pulling arm-tie 22 right, arm-tie 22 drives first filter screen 1601 and second filter screen 1602 and moves right to can make connecting block 1801 and connecting cell body 1802 separate, take out first filter screen 1601 and second filter screen 1602 from the inside of filter-tank 15 until, conveniently filter screen 1601 and second filter screen 1602 and dismantle and wash first filter screen 1601 and second filter screen 1602, avoid using the condition that the mesh blockked up for a long time as far as possible.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (8)
1. An efficient river dredging system, including hull (12), its characterized in that: a mud pump (2) is installed at one end of the top of the ship body (12), a filter tank (15) is installed at the other end of the top of the ship body (12), a mud conveying pipe (1) is connected between the filter tank (15) and the output end of the mud pump (2), a drain pipe (14) is connected to the bottom of one side, away from the mud conveying pipe (1), of the filter tank (15), a mud pumping seat (8) is connected to one end of the bottom of the ship body (12), a suction head (9) is installed at the bottom of the mud pumping seat (8), a mud pumping pipe (5) is connected to one end of the mud pumping seat (8) and the input end of the mud pump (2), a lifting assembly (3) is installed in an inner cavity of the ship body (12), a driving motor (13) is installed at the bottom of the lifting assembly (3), a stirring shaft (11) is installed at the output end of the driving motor (13), the bottom of the stirring shaft (11) extends out of the ship body (12) and is connected with a stirring rod (10), the stirring shaft (11) is connected with the ship body (12) in a sealing way.
2. An efficient river dredging system according to claim 1, wherein: the utility model discloses a mud pipe, including hull (12), mud pipe (5), first backup pad (6) are installed to the one end that hull (12) are close to take out mud pipe (5), the surface of first backup pad (6) be connected with take out mud pipe (5) first pipe of matcing each other detain (7), hull (12) top is close to second backup pad (20) are installed to the one end of defeated mud pipe (1), the surface of second backup pad (20) be connected with defeated mud pipe (1) second pipe of matcing each other detains (19).
3. An efficient river dredging system according to claim 1, wherein: lifting unit (3) are including connecting plate (301), install connecting plate (301) the both ends of hull (12) inner chamber, first electric putter (302) are all installed at the both ends at hull (12) inner chamber top, lifter plate (303) are installed to the output of first electric putter (302), lifter plate (303) are located two sets of between connecting plate (301), the bottom of lifter plate (303) with the top fixed connection of driving motor (13).
4. A high efficiency river dredging system according to claim 3, wherein: sliding assembly (4) are all installed at the both ends of lifter plate (303), and are two sets of sliding assembly (4) all include slider (401), and are two sets of slider (401) are installed respectively the both ends of lifter plate (303), and are two sets of spout (402) have all been seted up to the inboard of connecting plate (301), and are two sets of slider (401) and two sets of be sliding connection between spout (402).
5. An efficient river dredging system according to claim 1, wherein: filtering component (16) are installed to the inner chamber of filter-tank (15), filtering component (16) include first filter screen board (1601), first filter screen board (1601) are installed the top of filter-tank (15) inner chamber, filter-tank (15) inner chamber is kept away from second filter screen board (1602) is installed to the one end of first filter screen board (1601), the mesh aperture of first filter screen board (1601) is greater than the mesh aperture of second filter screen board (1602).
6. An efficient river dredging system according to claim 5, wherein: first filter screen board (1601) with second filter screen board (1602) is close to coupling assembling (18) are all installed to the one end of defeated mud pipe (1), and are two sets of coupling assembling (18) all include connecting block (1801), and are two sets of connecting block (1801) are installed respectively first filter screen board (1601) with second filter screen board (1602) is close to the one end of defeated mud pipe (1), filter tank (15) inner chamber is close to the one end of defeated mud pipe (1) is installed respectively with two sets of connecting block (1801) the connection cell body (1802) that matches each other, first filter screen board (1601) with second filter screen board (1602) is kept away from the one end of connecting block (1801) all stretches out filter tank (15) and install arm-tie (22).
7. An efficient river dredging system according to claim 6, wherein: the inner cavity of the filter tank (15) is close to two sets of one end of the connecting tank body (1802) is provided with a telescopic assembly (17), the telescopic assembly (17) comprises two sets of second electric push rods (1702), the two sets of second electric push rods (1702) are respectively arranged at one ends of the inner cavity of the filter tank (15) which are close to the two sets of connecting tank body (1802), and the output ends of the two sets of second electric push rods (1702) are provided with push plates (1701).
8. An efficient river dredging system according to claim 7, wherein: the two ends of the push plate (1701) are respectively provided with a limiting component (21), the two limiting components (21) respectively comprise a limiting block (2101), the two limiting blocks (2101) are respectively arranged at the two ends of the push plate (1701), a limiting groove (2102) is formed in one end, close to the push plate (1701), of the inner cavity of the filter tank (15), and the limiting blocks (2101) are connected with the limiting groove (2102) in a sliding mode.
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CN202221189583.3U CN217352659U (en) | 2022-05-18 | 2022-05-18 | Efficient river channel desilting system |
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CN202221189583.3U CN217352659U (en) | 2022-05-18 | 2022-05-18 | Efficient river channel desilting system |
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