CN114247188A

CN114247188A - Large-flow truss pump suction dredge

Info

Publication number: CN114247188A
Application number: CN202111488252.XA
Authority: CN
Inventors: 梁涛; 梁怀奎
Original assignee: Jiangsu Xindi Environmental Engineering Co ltd
Current assignee: Jiangsu Xindi Environmental Engineering Co ltd
Priority date: 2021-12-07
Filing date: 2021-12-07
Publication date: 2022-03-29

Abstract

The invention relates to the technical field of truss pump suction dredge, and discloses a large-flow truss pump suction dredge, which comprises a working bridge, wherein the inner wall of the working bridge is fixedly connected with a steady flow barrel, the inner part of the steady flow barrel is rotatably connected with a transmission shaft, the outer part of the transmission shaft is fixedly sleeved with a long scraping arm, one side of the long scraping arm close to the inner wall of the working bridge is fixedly connected with a scraping plate, one end of the transmission shaft far away from the steady flow barrel is fixedly connected with a mud scraping shaft, one side of the working bridge far away from the steady flow barrel is provided with a kinetic energy mechanism, the side surface of the long scraping arm is fixedly connected with a short scraping arm, the inner wall of the working bridge is fixedly connected with a weir plate, through the arrangement of a water spraying mechanism, a rotating ball matched with the water spraying mechanism can reduce the friction resistance generated when the sleeve plate and a water storage sleeve rotate, meanwhile, the upper part of the working bridge is cleaned by the circular motion of the water storage sleeve, and the inner part of the working bridge can be fully cleaned by the cooperation of a water delivery pipe, avoid the inside of mud adhesion at the work bridge, reach the effect that this device of being convenient for used to reciprocate.

Description

Large-flow truss pump suction dredge

Technical Field

The invention relates to the technical field of truss pump suction dredge, in particular to a large-flow truss pump suction dredge.

Background

In wastewater treatment, a sedimentation tank is generally a structure for separating sludge and water before or after biochemical treatment, and most of the sedimentation tank is sludge with finer particles. Before biochemistry, the sludge is called a primary sedimentation tank, the inorganic components of the precipitated sludge are more, and the water content of the sludge is lower than that of the sludge in a secondary sedimentation tank. The sedimentation tank after biochemistry is generally called as a secondary sedimentation tank, most of the sedimentation tank is organic sludge, and the water content of the sludge is high. The type of the device is various, and the device can be divided into a horizontal flow type, a vertical flow type and a radial flow type according to the water flow direction in the pool. The horizontal flow type sedimentation tank is rectangular, wastewater flows in from one end of the tank, flows through the tank in the horizontal direction and flows out from the other end of the tank. The horizontal flow type sedimentation tank of the sewage treatment plant needs to sink outside a sludge discharge tank at the bottom of the tank through a truss type pump suction dredge, and because the suction dredge is behind the sludge discharge work, parts such as the organism inner wall of the suction dredge and a mud scraping plate can be adhered with sludge, and the adhered sludge can influence the secondary work of the suction dredge if not cleaned in time, so that the suction dredge equipment capable of rapidly self-cleaning is urgently needed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a large-flow truss pump suction dredge which has the advantages of preventing sludge from being adhered to the inside of a working bridge, achieving the effect of facilitating the reciprocating use of the device and the like, and solves the problems that after the suction dredge discharges the sludge, the inner wall of the suction dredge body, a mud scraping plate and other parts are adhered with the sludge, and the adhered sludge can affect the secondary work of the suction dredge if not cleaned in time.

(II) technical scheme

In order to avoid the sludge from being adhered to the inside of the working bridge and achieve the aim of facilitating the reciprocating use of the device, the invention provides the following technical scheme: a large-flow truss pump dredge comprises a working bridge, wherein a steady flow barrel is fixedly connected to the inner wall of the working bridge, a transmission shaft is rotatably connected to the inner part of the steady flow barrel, a long scraping arm is fixedly sleeved on the outer part of the transmission shaft, a plurality of concentration grid bars are fixedly connected to the inner part of the long scraping arm, a scraping plate is fixedly connected to one side, close to the inner wall of the working bridge, of the long scraping arm, a mud scraping shaft is fixedly connected to one end, away from the steady flow barrel, of the transmission shaft, a bottom bearing is fixedly connected to one end, away from the mud scraping shaft, of the bottom bearing, a bottom scraping plate is fixedly sleeved on one end, away from the mud scraping shaft, a kinetic energy mechanism is arranged on one side, away from the steady flow barrel, of the working bridge, a short scraping arm is fixedly connected to the side surface of the long scraping arm, a weir plate is fixedly connected to the inner wall of the working bridge, the short scraping arm, the concentration grid bars and the long scraping arm are arranged, the steady flow barrel can drive the transmission shaft and enable the mud scraping shaft to rotate, the long scraping arm and the concentration grid bars can be driven to synchronously rotate when the mud scraping shaft rotates, the long scraping arm rotates and simultaneously drives the bottom bearing to enable the bottom scraping plate to synchronously rotate, and meanwhile, the working bridge is matched to integrally enable sludge to be rapidly discharged, so that the effect of rapidly discharging sludge in a large flow is achieved.

Preferably, kinetic energy mechanism is including lower annular, and lower annular is seted up at the upper surface of working bridge, and the inside of lower annular rotates and is connected with lower crown plate, and one side fixedly connected with lantern ring of lower annular is kept away from to lower crown plate, and the lantern ring lies in the top lantern ring of working bridge and becomes the ring form setting, and the inner ring groove has been seted up to the inner wall of lantern ring, and spacing annular has all been seted up to the both sides of the inner wall of inner ring groove.

Preferably, kinetic energy mechanism is still including the kerve, the center department at the working bridge upper surface is seted up to the kerve, the inside swing joint of kerve has drive machine, the fixed coupling in outside of drive machine output shaft has the drive disk, the drive disk is located the inside of the lantern ring, be provided with watering mechanism between drive disk and the inner ring groove, through setting up kinetic energy mechanism cooperation watering mechanism, it rotates the drive disk to start driving drive disk to rotate the drive disk in the inside of the lantern ring and rotates, the drive disk drives watering mechanism and transmits simultaneously, watering mechanism carries out the circular motion in the inside of the lantern ring this moment, the cooperation sets up spacing annular and can prescribe a limit to watering mechanism's position, circular orbit when watering mechanism motion has been guaranteed, thereby the convenience carries out even washing around the working bridge is inside.

Preferably, watering mechanism has set up to high pressure nozzle including two lagging, the fixed raceway that has cup jointed in the inside of two lagging, and the one end that the raceway is close to the service bridge sets up to high pressure nozzle, and the outside activity of raceway has cup jointed and has rotated the wheel, rotates the wheel and rotates through the raceway and connect between two lagging, and two lagging swing joint in the inside of inner ring groove, and the lagging fixed surface of upside is connected with spacing post, and one side swing joint that the lagging was kept away from to spacing post is in the inside of spacing ring groove.

Preferably, the water storage sleeve is fixedly sleeved at one end of the outside of the water pipe, which is far away from the sleeve plate, the funnel groove is formed at one end of the water storage sleeve, which is far away from the water pipe, the water pipe is communicated with the inside of the funnel groove, the inner wall of the funnel groove is fixedly connected with a top plate, the lower surface of the water storage sleeve is movably embedded with a rotating ball through a rotating shaft in an equal division manner, the water storage sleeve is positioned on the upper surface of the sleeve ring, the rotating ball is rotatably connected on the upper surface of the sleeve ring, through the arrangement of the watering mechanism, the driving motor drives the driving disc to rotate, the driving disc is contacted with the rotating wheel and drives the rotating wheel to rotate in the sleeve plate, the rotating wheel rotates and is in frictional contact with the inner wall of the inner ring groove, at the moment, the rotating wheel performs circular motion along the inside of the inner ring groove by virtue of frictional force, meanwhile, the rotating wheel drives the water pipe to move above the working bridge, and the rotating ball arranged in a matching manner can reduce the frictional resistance generated when the sleeve plate and the water storage sleeve rotate, borrow simultaneously by depositing the water jacket and do circular motion and wash the top of working bridge, cooperate the raceway simultaneously and can carry out abundant washing to the working bridge inside, avoid the mud adhesion in the inside of working bridge, reach the effect that this device of being convenient for carries out reciprocal use.

Preferably, the last fixed surface of the lantern ring is connected with water holding mechanism, and water holding mechanism is including the barrel, and barrel fixed connection is at the upper surface of the lantern ring, and the inside below of barrel becomes the opening form and sets up, and water holding sleeve is located the inside of barrel, and the inside top of barrel becomes the cavity form and sets up, and the inside of barrel is used for placing the water source, and the inside of barrel is fixed to be inlayed and is had the connecting pipe, and the inside one end fixed connection of barrel is kept away from to the connecting pipe is in watering mechanism, and the funnel groove is linked together through the inside of connecting pipe and barrel.

Preferably, the last fixed surface of barrel inlays and has the standpipe, and the inside of standpipe is linked together with the inside of barrel, and the standpipe is kept away from one side of barrel and has been seted up the snap ring, and the snap ring becomes the ring groove form setting, deposits water mechanism through the setting, cup joints the inside at the snap ring with outside water source to carry the inside to the barrel via the inside of standpipe and save the water source, cooperate the connecting pipe to transmit the inside to the funnel groove with the water source simultaneously and use fast, thereby make the water source can be continuous add the washing.

(III) advantageous effects

Compared with the prior art, the invention provides a large-flow truss pump dredge, which has the following beneficial effects:

1. this large-traffic truss pump suction dredge, through setting up watering mechanism, when drive motor drives the driving disc pivoted, the driving disc rotates the wheel in the inside of lagging with the contact of rotating wheel and drive, rotate the wheel pivoted while with the inner wall frictional contact of inner ring groove, the wheel is rotated this moment and is borrowd the inside of following the inner ring groove by frictional force and carry out the circular motion, it moves in the working bridge top to rotate the wheel drive raceway simultaneously, the rolling ball that the cooperation set up can reduce the lagging and deposit the frictional resistance that the water jacket produced when rotating, borrow simultaneously and wash the top of working bridge by depositing the water jacket and being circular motion, cooperation raceway can carry out abundant washing to the working bridge inside simultaneously, avoid the inside of mud adhesion at the working bridge, reach the effect that this device of being convenient for carries out reciprocating use.

2. This mud pump suction dredge of large-traffic truss scrapes the arm through setting up the weak point, concentrated grid and long arm of scraping, borrows by the stationary flow bucket and can drive the transmission shaft and make and scrape the mud axle and rotate, can drive long arm and concentrated grid and carry out synchronous rotation when scraping mud axle pivoted, drives the end bearing and makes end scraper blade synchronous rotation when long scraping the arm pivoted, cooperates the whole mud that makes of working bridge simultaneously and discharges fast, reaches the effect of quick large-traffic discharge mud.

3. This large-traffic truss pump suction dredge, through setting up kinetic energy mechanism cooperation watering mechanism, start driving motor and drive the driving disc and rotate in the inside of the lantern ring, the driving disc drives watering mechanism and carries out the transmission simultaneously, watering mechanism carries out the circular motion in the inside of the lantern ring this moment, the cooperation sets up spacing annular and can prescribe a limit to watering mechanism's position, circular orbit when having guaranteed watering mechanism motion, thereby the convenience carries out even washing around to the work bridge is inside.

4. This mud machine is inhaled to large-traffic truss pump through setting up water storage mechanism, cup joints the inside at the snap ring with outside water source to carry the water source to the inside of barrel via the inside of standpipe and save, cooperate the connecting pipe to transmit the water source to the inside in funnel groove simultaneously and use fast, thereby make the water source can be continuous add the washing.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic bottom view of the present invention;

FIG. 4 is a schematic perspective view of the collar of FIG. 1 in accordance with the present invention;

FIG. 5 is an exploded view of the kinetic energy mechanism of FIG. 4 in accordance with the present invention;

FIG. 6 is an exploded view of the water jacket of FIG. 4 according to the present invention;

fig. 7 is a schematic cross-sectional structure view of the cartridge of fig. 4 according to the present invention.

In the figure: 1. a working bridge; 11. a short scraping arm; 12. a flow stabilizing barrel; 13. a drive shaft; 14. a weir plate; 15. a mud scraping shaft; 16. concentrating the grid bars; 17. a long scraping arm; 18. a squeegee; 19. a bottom bearing; 2. a kinetic energy mechanism; 21. a lower ring groove; 22. a lower ring plate; 23. a drive motor; 24. a bottom groove; 25. a drive plate; 26. a collar; 27. an inner ring groove; 28. a limiting ring groove; 4. a water storage mechanism; 41. a barrel; 42. a connecting pipe; 43. a vertical tube; 44. a snap ring; 5. a watering mechanism; 51. a rotating wheel; 52. a top plate; 53. sheathing; 54. a limiting column; 55. a water delivery pipe; 56. a water storage sleeve; 57. rotating the ball; a funnel 58.

Detailed Description

The present invention will be described in further detail with reference to the drawings, wherein like elements are designated by like reference numerals, wherein the terms "front", "rear", "left", "right", "upper" and "lower", "bottom" and "top" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular element.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a large-flow truss pump dredge comprises a working bridge 1, a steady flow barrel 12 is fixedly connected to the inner wall of the working bridge 1, a transmission shaft 13 is rotatably connected to the inner portion of the steady flow barrel 12, a long scraping arm 17 is fixedly sleeved on the outer portion of the transmission shaft 13, a plurality of concentration grid bars 16 are fixedly connected to the inner portion of the long scraping arm 17, a scraping plate 18 is fixedly connected to one side, close to the inner wall of the working bridge 1, of the long scraping arm 17, a mud scraping shaft 15 is fixedly connected to one end, far away from the steady flow barrel 12, of the transmission shaft 13, a bottom bearing 19 is fixedly connected to one end, far away from the steady flow barrel 12, of the mud scraping shaft 15, a bottom scraping plate is fixedly sleeved on one end, far away from the mud scraping shaft 15, of the bottom bearing 19, a kinetic energy mechanism 2 is arranged on one side, far away from the steady flow barrel 12, of the working bridge 1, a short scraping arm 11 is fixedly connected to the side of the long scraping arm 17, a weir plate 14 is fixedly connected to the inner wall of the working bridge 1, and by arranging the short scraping arm 11, the concentration grid bars 16 and the long scraping arm 17, borrow and borrow stationary flow bucket 12 can drive transmission shaft 13 and make and scrape mud axle 15 and rotate, scrape mud axle 15 and can drive long arm 17 and concentrated grid 16 of scraping when rotating and carry out synchronous rotation, long arm 17 of scraping drives bottom bearing 19 and makes the synchronous rotation of end scraper blade when rotating, cooperates work bridge 1 whole to make mud discharge fast simultaneously, reaches the effect of quick large-traffic discharge mud.

Kinetic energy mechanism 2 is including lower annular 21, and lower annular 21 is seted up at the upper surface of service bridge 1, and the inside rotation of lower annular 21 is connected with lower crown plate 22, and lower crown plate 22 keeps away from one side fixedly connected with lantern ring 26 of lower annular 21, and lantern ring 26 is located the top lantern ring 26 of service bridge 1 and becomes the ring form setting, and inner ring 27 has been seted up to the inner wall of lantern ring 26, and spacing annular 28 has all been seted up to the both sides of the inner wall of inner ring 27.

Kinetic energy mechanism 2 is still including kerve 24, and kerve 24 sets up in the center department of working bridge 1 upper surface, and the inside swing joint of kerve 24 has drive motor 23, and the external fixation of drive motor 23 output shaft has cup jointed drive plate 25, and drive plate 25 is located the inside of lantern ring 26, is provided with watering mechanism 5 between drive plate 25 and the inner ring groove 27.

Watering mechanism 5 is including two lagging 53, the fixed union coupling in inside of two lagging 53 has had raceway 55, raceway 55 is close to the one end of service bridge 1 and sets up to high pressure nozzle, raceway 55's outside activity has been cup jointed and has been rotated wheel 51, it rotates through raceway 55 and connects between two lagging 53 to rotate wheel 51, and two lagging 53 swing joint are in the inside of inner ring groove 27, the lagging 53 fixed surface of upside is connected with spacing post 54, one side swing joint that lagging 53 was kept away from to spacing post 54 is in the inside of spacing ring groove 28.

The water storage sleeve 56 is fixedly sleeved at one end, far away from the sleeve plate 53, of the water delivery pipe 55, the funnel groove 58 is formed in one end, far away from the water delivery pipe 55, of the water storage sleeve 56, the water delivery pipe 55 is communicated with the inside of the funnel groove 58, the top plate 52 is fixedly connected to the inner wall of the funnel groove 58, the rotating ball 57 is movably embedded in the lower surface of the water storage sleeve 56 in an equant mode through a rotating shaft, the water storage sleeve 56 is located on the upper surface of the lantern ring 26, the rotating ball 57 is rotatably connected to the upper surface of the lantern ring 26, through the arrangement of the watering mechanism 5, when the transmission motor 23 drives the transmission disc 25 to rotate, the transmission disc 25 is in contact with the rotating wheel 51 and drives the rotating wheel 51 to rotate in the sleeve plate 53, the rotating wheel 51 is in friction contact with the inner wall of the inner ring groove 27 while rotating, at the moment, the rotating wheel 51 carries out circular motion along the inside of the inner ring groove 27 by virtue of friction force, and simultaneously, the rotating wheel 51 drives the water delivery pipe 55 to move above the working bridge 1, the rolling ball 57 that the cooperation set up can reduce the frictional resistance that lagging 53 and deposit water jacket 56 produced when rotating, borrow simultaneously to do the circular motion by depositing water jacket 56 and wash the top of working bridge 1, cooperation raceway 55 can carry out abundant washing to working bridge 1 inside simultaneously, avoids the mud adhesion in the inside of working bridge 1, reaches the effect that this device of being convenient for carried out reciprocating use.

The upper surface fixed connection of lantern ring 26 has water mechanism 4, water mechanism 4 is including barrel 41, barrel 41 fixed connection is at the upper surface of lantern ring 26, and the inside below of barrel 41 becomes the opening form setting, it is located the inside of barrel 41 to deposit water cover 56, the inside top of barrel 41 becomes the cavity form setting, and the inside of barrel 41 is used for placing the water source, the inside of barrel 41 is fixed to be inlayed and is had connecting pipe 42, the inside one end fixed connection of barrel 41 is kept away from to connecting pipe 42 is in watering mechanism 5, and funnel groove 58 is linked together through the inside of connecting pipe 42 with barrel 41.

The fixed surface of barrel 41 inlays and has standpipe 43, the inside of standpipe 43 is linked together with the inside of barrel 41, standpipe 43 keeps away from one side of barrel 41 and has seted up snap ring 44, snap ring 44 becomes the setting of ring groove form, water mechanism 4 is deposited through the setting, cup joint the inside at snap ring 44 with outside water source, and carry the inside to barrel 41 with the water source via the inside of standpipe 43 and save, cooperate the connecting pipe 42 to transmit the water source to the inside of funnel groove 58 to use fast simultaneously, thereby make the water source can be the continuous interpolation washing that adds.

When in use, the utility model is used,

first, through setting up 2 cooperation watering mechanisms 5 of kinetic energy mechanism, start driving drive disc 25 with driving motor 23 and rotate drive disc 25 and rotate the inside of lantern ring 26, drive disc 25 drives watering mechanisms 5 and transmits simultaneously, watering mechanisms 5 carries out circular motion in the inside of lantern ring 26 this moment, the cooperation sets up spacing annular 28 and can prescribe a limit to watering mechanisms 5's position, circular orbit when watering mechanisms 5 move has been guaranteed, thereby the convenience carries out even washing around to work bridge 1 inside.

Secondly, through setting up watering mechanism 5, when driving motor 23 drove driving disc 25 and rotates, driving disc 25 and rotating wheel 51 contact and drive rotating wheel 51 and rotate in the inside of lagging 53, rotating wheel 51 rotates while with the inner wall frictional contact of inner ring groove 27, rotating wheel 51 borrows this moment and carries out circular motion along the inside of inner ring groove 27 by frictional force, rotating wheel 51 drives raceway 55 and removes in working bridge 1 top simultaneously, the rolling ball 57 that the cooperation set up can reduce lagging 53 and deposit the frictional resistance that water jacket 56 produced when rotating, borrow simultaneously and do circular motion by depositing water jacket 56 and wash the top of working bridge 1, cooperation raceway 55 can carry out abundant washing to working bridge 1 inside simultaneously, avoid the inside of mud adhesion at working bridge 1, reach the effect of being convenient for this device to carry out reciprocating use.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a large-traffic truss pump suction dredge, includes working bridge (1), its characterized in that: inner wall fixedly connected with stationary flow bucket (12) of working bridge (1), the internal rotation of stationary flow bucket (12) is connected with transmission shaft (13), the outside fixed of transmission shaft (13) has cup jointed long arm (17) of scraping, the concentrated grid of inside fixedly connected with (16) of long arm (17) of scraping, long arm (17) of scraping is close to one side fixedly connected with scraper blade (18) mutually with working bridge (1) inner wall, the one end fixedly connected with of stationary flow bucket (12) is kept away from in transmission shaft (13) scrapes mud axle (15), scrape one end fixedly connected with end bearing (19) that stationary flow bucket (12) were kept away from in mud axle (15), end bearing (19) are kept away from the one end fixed cover of scraping mud axle (15) and are connected with end scraper blade, one side that stationary flow bucket (12) were kept away from in working bridge (1) is provided with kinetic energy mechanism (2), the inside of kinetic energy mechanism (2) is provided with watering mechanism (50).

2. The mass flow truss pumping dredge of claim 1, further comprising: the side surface of the long scraping arm (17) is fixedly connected with a short scraping arm (11), and the inner wall of the working bridge (1) is fixedly connected with a weir plate (14).

3. The mass flow truss pumping dredge of claim 1, further comprising: kinetic energy mechanism (2) is including lower annular (21), and the upper surface at service bridge (1) is seted up in lower annular (21), and the inside rotation of lower annular (21) is connected with down crown plate (22), and one side fixedly connected with lantern ring (26) of lower annular (21) are kept away from down crown plate (22), and the top lantern ring (26) that the lantern ring (26) are located service bridge (1) become the ring form setting, and inner ring groove (27) have been seted up to the inner wall of lantern ring (26), and spacing annular (28) have all been seted up to the both sides of the inner wall of inner ring groove (27).

4. A high flow rate truss pumping dredge as claimed in claim 3, wherein: kinetic energy mechanism (2) are still including kerve (24), and kerve (24) are seted up in the center department of working bridge (1) upper surface, and the inside swing joint of kerve (24) has drive motor (23), and the fixed cover in outside of drive motor (23) output shaft has been connect driving disc (25), and driving disc (25) are located the inside of lantern ring (26), are provided with between driving disc (25) and inner ring groove (27) watering mechanism (5).

5. A high flow rate truss pumping dredge as claimed in claim 4, wherein: watering mechanism (5) are including two lagging (53), raceway (55) have been cup jointed to the inside fixed of two lagging (53), one end that raceway (55) are close to service bridge (1) sets up to high pressure nozzle, the outside activity of raceway (55) has been cup jointed and has been rotated wheel (51), it rotates through raceway (55) and connects between two lagging (53) to rotate wheel (51), and two lagging (53) swing joint are in the inside of inner ring groove (27), lagging (53) fixed surface of upside is connected with spacing post (54), one side swing joint that lagging (53) were kept away from in spacing post (54) is in the inside of spacing ring groove (28).

6. A high flow rate truss pumping dredge as claimed in claim 5, wherein: the water storage sleeve is characterized in that a water storage sleeve (56) is fixedly sleeved at one end, far away from the sleeve plate (53), of the outer portion of the water conveying pipe (55), a funnel groove (58) is formed in one end, far away from the water conveying pipe (55), of the water storage sleeve (56), the water conveying pipe (55) is communicated with the inside of the funnel groove (58), a top plate (52) is fixedly connected to the inner wall of the funnel groove (58), rotating balls (57) are movably embedded into the lower surface of the water storage sleeve (56) in an equally-divided mode through a rotating shaft, the water storage sleeve (56) is located on the upper surface of the lantern ring (26), and the rotating balls (57) are rotatably connected to the upper surface of the lantern ring (26).

7. A high flow rate truss pumping dredge as claimed in claim 6, wherein: the upper surface fixedly connected with of lantern ring (26) deposits water mechanism (4), it is including barrel (41) to deposit water mechanism (4), barrel (41) fixed connection is at the upper surface of lantern ring (26), and the inside below of barrel (41) becomes the opening form and sets up, it is located the inside of barrel (41) to deposit water cover (56), the inside top of barrel (41) becomes the cavity form and sets up, and the inside of barrel (41) is used for placing the water source, the inside of barrel (41) is fixed to be inlayed and is had connecting pipe (42), the inside one end fixed connection of barrel (41) is kept away from in watering mechanism (5) in connecting pipe (42), and funnel groove (58) are linked together through the inside of connecting pipe (42) and barrel (41).

8. The mass flow truss pumping dredge of claim 7, further comprising: the upper surface of barrel (41) is fixed inlays and is had standpipe (43), and the inside of standpipe (43) is linked together with the inside of barrel (41), and snap ring (44) have been seted up to one side that barrel (41) were kept away from in standpipe (43), and snap ring (44) become the setting of ring groove form.