CN114772708A - Riverway water ecological in-situ dredging repair system - Google Patents

Abstract

The application provides a ecological normal position desilting repair system of river course water includes: the material scattering device comprises a connecting seat, wherein a plurality of groups of inserting parts are arranged on the outer wall of the connecting seat, disturbing parts are arranged in the connecting seat, a supporting seat is arranged on the top surface of the connecting seat, a material scattering assembly is arranged on the top surface of the supporting seat, and a linkage driving part is arranged on one side of the connecting seat. This technical scheme is through being provided with the disturbance part on the connecting seat, spill material subassembly and linkage driving piece, the linkage driving piece drives the shrouding and reciprocates for annular seat intermittent type, shrouding and annular seat intermittent type, intermittent type rotates and makes the biological material equivalent in the annular seat spill into stirring department downwards, improves the restoration quality to the water when reducing biological material use cost, improves the efficiency of spilling the material simultaneously, spills the material and has improved the repair efficiency in river course greatly with the synchronization of stirring work.

Description

Riverway water ecological in-situ dredging repair system

Technical Field

The invention relates to the technical field of riverway water ecological in-situ dredging restoration, in particular to a riverway water ecological in-situ dredging restoration system.

Background

In recent years, the speed of the urbanization process development of China is high, and the urban river is more and more emphasized by people as an important landscape of the city. Because the river channel is polluted by pollution sources for a long time, the urban water body is seriously polluted and blackened and smelly all the year round, and the polluted black and odorous water body is generally cleaned by intercepting a sewage storage pipe, intercepting and dredging, in-situ dredging and the like at present, and is treated by rebuilding an ecological system mode.

At present, the normal position desilting is through the bed mud stirring of external equipment with the river course bottom, spill biological material to the stirring department through the manual work when the stirring, carry out "taking off black smelly" processing or adjusting quality of water to the bed mud through biological material, the water colour equals with control algae, but above-mentioned mode generally need use in than large-scale equipment removes to the river course, increase use cost on the one hand, and work is inconvenient, on the other hand still need cooperate external manual work to spill biological material, the artifical intensity of labour has been increased, and it is still inhomogeneous that the manual work spills biological material, the inaccurate problem of accuse volume, these factors have all influenced the restoration quality to the river course.

Disclosure of Invention

The invention aims to provide an ecological in-situ dredging and repairing system for river water, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

in a first aspect, an in-situ riverway water ecological dredging repair system comprises:

the connecting seat, the outer wall of connecting seat is provided with multiunit inserted component, its characterized in that:

a disturbing component is arranged in the connecting seat, a supporting seat is arranged on the top surface of the connecting seat, a material scattering assembly is arranged on the top surface of the supporting seat, a linkage driving piece is arranged on one side of the connecting seat, wherein,

spill the material subassembly and include from last to the movable sleeve down establish annular seat and the shrouding at T shape pole outer wall, the shrouding rotates to be set up in annular seat bottom, and all annular array have seted up the multiunit through-hole on annular seat bottom surface and the shrouding, annular cavity has in the annular seat, linkage driving piece drive annular seat, shrouding are unloaded and the work of vibration.

The improved structure is characterized in that a reset spring is sleeved on the outer wall of the T-shaped rod and above the annular seat, a support frame is arranged at the top of the T-shaped rod, a protruding block is arranged on the outer wall of one side of the sealing plate, the other end of the support frame is arranged on one side of the protruding block, a moving block is arranged on the support frame in a sliding mode through a vertical sliding groove, an arc-shaped elastic piece is arranged between the moving block and the protruding block, and the top of the moving block is connected with the inner wall of the top of the vertical sliding groove through an elastic telescopic rod.

In a further refinement, the linkage drive comprises:

the telescopic transmission rod is arranged on one side of the connecting seat through a bracket;

the cam is arranged at the top of the telescopic transmission rod and positioned on the other side of the convex block, and is used for pushing the convex block to extrude the arc-shaped elastic piece;

connecting plates are symmetrically arranged on the upper side and the lower side of the cam, the connecting plates are movably sleeved on the outer wall of the top of the telescopic transmission rod, and the other ends of the connecting plates are connected with one side of the moving block.

The improved structure of the sealing plate is characterized in that a transmission ring is sleeved on the outer wall of the telescopic transmission rod, a driving ring is movably sleeved on the outer wall of the supporting seat, the driving ring and the transmission ring are in transmission connection through a driving chain, and arc-shaped convex parts are arranged on one sides, opposite to the supporting seat and the sealing plate, in a staggered mode.

In a further refinement, the perturbation component comprises:

the oxygen supply device is arranged on the inner wall of the top of the connecting seat;

the connecting column is arranged at the bottom of the oxygen supply device and is communicated with the oxygen supply device;

the shunting seat is arranged at the bottom of the connecting column and communicated with the connecting column;

oxygen supply unit outer wall ring array sets up the multiunit intake pipe, and the other end through connection seat lateral wall of intake pipe, the spliced pole runs through the connection seat bottom surface back connection reposition of redundant personnel seat, the outer wall ring array of reposition of redundant personnel seat sets up the disturbing plate that the multiunit is linked together, the aeration hole that the multiunit is linked together is evenly seted up to the both sides of disturbing plate, the bottom of disturbing plate is provided with multiunit disturbing piece, the disturbing plate is in the insert part inboard.

The improved structure is characterized in that the oxygen supply device comprises a sealing seat arranged on the inner wall of the top of the connecting seat, the sealing seat is communicated with the connecting column, the top of the connecting column is provided with a shaft body through the connecting column, the top of the shaft body is provided with an induced air fan blade, one side of the inner wall of the connecting seat is provided with a driving device through a supporting frame, and the output end of the driving device is in transmission connection with the outer wall of the connecting column through a gear set.

The further improvement lies in that the connecting column is in transmission connection with the bottom of the outer wall of the telescopic transmission rod through a chain wheel transmission group, and the outer wall of the connecting seat is provided with a movable hole matched with the chain wheel transmission group.

The improved structure is characterized in that a power supply device is arranged on one side of the connecting seat, a feeding port communicated with the annular cavity is formed in the top of the annular seat, and a cover body is detachably arranged in the feeding port.

The improvement is that the top surface of the supporting seat is provided with a flexible pad which is contacted with the bottom of the sealing plate.

In summary, the present application discloses a riverway water ecology in-situ dredging repair system.

The technical scheme is that a disturbing component, a material scattering component and a linkage driving piece are arranged on a connecting seat, the connecting seat can be fixed at a designated position in a river channel through an insertion component for working, the use is convenient, the cost is low, the disturbing plate can be driven by a driving device to stir the bottom mud in the river channel during repair, oxygen is supplied during stirring, the dissolved oxygen content of a water body is increased, the oxygen consumption reaction process is accelerated, the linkage driving piece is synchronously driven to drive a sealing plate to intermittently rotate relative to an annular seat, the sealing plate and the annular seat intermittently move up and down, the intermittent rotation enables biological materials in the annular seat to be scattered into a stirring position downwards in an equivalent amount, the use cost of the biological materials is reduced, the repair quality of the water body is improved, the sealing plate and the annular seat intermittently move up and down, the annular seat vibrates, on one hand, the biological materials in the annular seat are uniformly distributed in the annular seat, the subsequent material quality of spilling is improved, the efficiency of spilling the material is improved simultaneously, spills the material and stirs the synchronization of work and has improved the repair efficiency in river course greatly.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a perspective view of an ecological in-situ riverway water dredging and restoring system according to the present application;

FIG. 2 is a perspective view of a disturbance component in the aquatic system of the river in situ desilting and restoring system;

FIG. 3 is a sectional view of an oxygen supply device in the system for in-situ desilting and restoring river water ecology according to the present application;

FIG. 4 is a perspective view of a material spreading assembly of the system for in-situ cleaning and restoring river water in accordance with the present application;

fig. 5 is a perspective view of a linkage driving member in the riverway water ecological in-situ dredging and restoring system.

In the figure: 1. a connecting seat; 2. an insertion member; 3. a disturbance component; 31. an oxygen supply device; 311. a sealing seat; 312. a connecting frame; 313. an induced draft fan blade; 32. an air inlet pipe; 33. connecting columns; 34. a drive device; 35. a gear set; 36. a flow distribution base; 37. a disturbing plate; 38. a disturbance plate; 39. a sprocket drive group; 4. a material spreading assembly; 41. an annular seat; 42. closing plates; 43. a through hole; 44. a bump; 45. a support frame; 46. an arc-shaped elastic member; 47. a return spring; 48. an elastic telescopic rod; 5. a linkage driving member; 51. a telescopic transmission rod; 52. a connecting plate; 53. a cam; 54. a chain; 55. a drive ring; 56. an arcuate projection; 6. a supporting base; 7. t-shaped rods.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Referring to fig. 1, an ecological in-situ dredging and repairing system for river water comprises a connecting seat 1 serving as a supporting and mounting structure and a plurality of groups of insertion components 2 arranged on the outer wall of the connecting seat 1, wherein the insertion components 2 are used for being inserted into a designated position in a river to carry out in-situ dredging and repairing operation;

the shape of the connecting seat 1 may be rectangular or circular, and a cavity is formed in the connecting seat for accommodating the disturbing component 3, which will be described in detail below, in this embodiment, a rectangular connecting seat is preferably used, a cylindrical supporting seat 6 is disposed on the top surface of the connecting seat 1, a T-shaped rod 7 is disposed on the top surface of the supporting seat 6, and the supporting seat 6 and the T-shaped rod 7 are used for assembling the linkage driving component 5 and the material scattering component 4, which will be described in detail below. Meanwhile, the insertion part 2 is L-shaped, and one end of the insertion part, which is far away from the connecting seat 1, provides stable support for the tip to be inserted into the bottom of a river channel. The insertion members 2 in the present embodiment are provided in at least four groups;

furthermore, a power supply device for supplying power to the electrical components of the invention is arranged on the outer wall of one side of the connecting seat 1, and the power supply device comprises a photovoltaic module, a photovoltaic bracket, a storage battery and other structures, belongs to the prior art, and is not further detailed herein.

As shown in fig. 2-3, a disturbance component 3 is arranged in the connection seat 1, when repairing, stubborn bottom mud at the bottom of a river channel is separated from the river bottom, the disturbance component 3 comprises an oxygen supply device 31 arranged on the inner wall of the top of the connection seat 1, a connection column 33 movably inserted in the bottom of the oxygen supply device 31 and a shunt seat 36 arranged at the bottom of the connection column 33, the connection column 33 movably penetrates through the bottom of the connection seat 1 and is connected with the shunt seat 36, a plurality of groups of air inlet pipes 32 are arranged in an annular array on the outer wall of the oxygen supply device 31, the other end of the air inlet pipe 32 penetrates through the side wall of the connection seat 1, a plurality of groups of disturbance plates 37 are arranged in an annular array on the outer wall of the shunt seat 36, a plurality of groups of disturbance plates 38 are arranged at equal intervals along a linear array at the bottom of the disturbance plates 37, and the disturbance plates 37 are positioned at the inner sides of the plurality of groups of insertion components 2;

furthermore, the inner cavity of the oxygen supply device 31, the inner cavity of the connecting column 33, the inner cavity of the shunt seat 36 and the inner cavity of the disturbing plate 37 are communicated with each other, and a filtering structure, such as a filter screen, is arranged inside the air inlet pipe 32. A plurality of groups of aeration holes communicated with each other are arranged on the outer walls of the two sides of the disturbance plate 37 along a linear array. One side of the inner wall of the connecting seat 1 is provided with a driving device 34 through a supporting frame 45, and the output end of the driving device 34 is in transmission connection with the outer wall of the connecting column 33 through a gear set 35. Meanwhile, a one-way valve is arranged in the connecting column 33, so that oxygen can enter the connecting column 33 from the sealing seat 311 and cannot enter the sealing seat 311 through the connecting column 33;

wherein, the oxygen supply device 31 comprises a sealing seat 311, a bearing and a bearing sealing ring are arranged at the joint of the connecting column 33 and the sealing seat 311, the top of the connecting column 33 is hollow, so that the oxygen entering the sealing seat 311 can enter the connecting column 33, the top surface of the connecting column 33 is provided with a shaft body through the connecting frame 312, the shaft body is concentric with the connecting column 33, and the top end of the shaft body is provided with induced draft fan blades 313, when the connecting column 33 is driven by the driving device 34 to rotate, and then the connecting frame 312 is driven to make the induced draft fan blades 313 rotate in the sealing seat 311, so that the external oxygen enters the sealing seat 311 from the air inlet pipe 32, as the gas in the sealing seat 311 increases, the internal air pressure increases, therefore, the gas enters the connecting column 33, then enters the disturbing plate 37 through the connecting column 33 and the flow dividing seat 36, and is discharged from the aeration holes, so that the dissolved oxygen content of the water body is increased, and the oxygen consumption reaction process is accelerated;

the driving device 34 preferably employs a motor. The gear set 35 is two sets of intermeshing gears. The disturbing pieces 38 are provided with strip-shaped holes, so that the bottom sediment disturbing quality of the river bottom is improved.

Example 2

As shown in fig. 4, the spreading assembly 4 comprises an annular seat 41 and a sealing plate 42 which are movably sleeved on the outer wall of the T-shaped rod 7 from top to bottom, in the annular seat 41 there is an annular cavity (not shown in the figures) for containing biological material, such as a sediment improver or hydrobiosand of the prior art, a feeding port is provided at the top of the annular seat 41 for feeding the biological material, and in order to prevent the biological material inside from seeping therefrom, in daily life, a cover body is adopted for plugging, the cover body and the feeding port can be connected by threads or bolts, the top of the sealing plate 42 is rotationally connected with the bottom of the annular seat 41, a plurality of groups of through holes 43 with the same diameter are arranged on the bottom surfaces of the sealing plate 42 and the annular seat 41 in an annular array, the sealing plate 42 rotates relative to the annular seat 41 to ensure that the through holes 43 on the sealing plate 42 are staggered or superposed with the through holes 43 on the annular seat 41, so that the biological material in the annular seat 41 is sprinkled downwards into the river channel through the through hole 43;

the sealing plate 42 and the annular seat 41 can be connected by a bearing, a sliding block, a sliding groove or the like. A projection 44 is integrally formed on the outer wall side of the closing plate 42 for engagement with a driving link 5 to be described in detail later;

further, a supporting frame 45 is arranged at the top of the T-shaped rod 7, the supporting frame 45 is U-shaped, the other end of the supporting frame 45 is located on one side of the convex block 44, namely, the cam 53 pushes the convex block 44 to enable the convex block 44 to rotate, a moving block is arranged at one end of the supporting frame 45 in a sliding mode through a vertical sliding groove, the top surface of the moving block is connected with the inner wall of the top surface of the vertical sliding groove through an elastic telescopic rod 48, the convex block 44 is connected with the moving block through an arc-shaped elastic piece 46, the arc-shaped elastic piece 46 enables the convex block 44 to reset after the convex block 44 is pushed by the cam 53 so as to enable the convex block 44 to be always in contact with the cam 53, and a reset spring 47 is sleeved on the outer wall of the T-shaped rod 7 and above the annular seat 41;

wherein, the elastic telescopic rod 48 comprises a female rod, a male rod and a spring, and belongs to the prior art. One end of the return spring 47 is connected with the inner wall of the top surface of the T-shaped rod 7, and the other end of the return spring is connected with the top surface of the annular seat 41, so that the return spring has the same function as the elastic telescopic rod 48 and is used for assisting the annular seat 41 to return downwards. The vertical sliding grooves and the moving blocks are of T-shaped structures, and the moving blocks are prevented from being separated from the vertical sliding grooves. The arc-shaped elastic member 46 is preferably an arc-shaped spring.

Example 3

As shown in fig. 4-5, a linkage driving member 5 for linking the disturbing member 3 and the spreading assembly 4 is disposed at one side of the connecting base 1, the linkage driving member 5 includes a telescopic driving rod 51 disposed at an outer wall of one side of the connecting base 1 through a bracket, a bottom of the telescopic driving rod 51 is in driving connection with the connecting column 33 through a sprocket driving set 39, a top of the telescopic driving rod 51 is provided with a cam 53, the cam 53 is disposed at the other side of the projection 44 for pushing against the projection 44, two groups of connecting plates 52 are arranged at one side of the moving block, the other ends of the two groups of connecting plates 52 are sleeved at the top of the outer wall of the telescopic transmission rod 51 through bearings, since the annular seat 41 moves up and down, in order to ensure that the cam 53 always engages with the projection 44, and consequently that the cam 53 moves along with the annular seat 41, wherein the lug 44, the arc-shaped elastic piece 46 and the cam 53 are positioned between the two groups of connecting plates 52;

the telescopic transmission rod 51 comprises a fixed rod and a movable rod, the movable rod is inserted into one end of the fixed rod and is matched with a sliding block on the inner wall of the fixed rod through a sliding groove formed in the outer wall of the fixed rod, so that normal stretching can be performed, and meanwhile, rotating force can be transmitted, the cam 53 and the connecting plate 52 are sleeved on the outer wall of the movable rod, and the chain wheel transmission group 39 is sleeved on the outer wall of the fixed rod. The chain wheel transmission group 39 consists of two groups of chain wheels and transmission chains, a movable hole for transmission of the transmission chains is formed in the outer wall of the connecting seat 1, and the telescopic transmission rod 51 synchronously rotates when the connecting column 33 rotates;

furthermore, a driving ring 55 is movably sleeved on the outer wall of the supporting seat 6, a driving ring is movably sleeved on the outer wall of the telescopic transmission rod 51 (movable rod), the driving ring and the driving ring 55 are in transmission connection through a driving chain 54, arc-shaped convex parts 56 are arranged on the opposite sides of the driving ring 55 and the sealing plate 42 in a staggered manner, when the telescopic transmission rod 51 rotates, the driving ring 55 and the driving chain 54 drive and drive the driving ring 55 to rotate, so that the driving ring 55 and the arc-shaped convex parts 56 on the sealing plate 42 are in intermittent contact, when in contact, the annular seat 41 and the sealing plate 42 upwards press the return spring 47, after the staggering, the annular seat 41 and the sealing plate 42 are reset under the action of the return spring 47 and impact the top of the supporting seat 6, so that the annular seat 41 generates vibration, and the biological materials in the interior are uniformly distributed;

wherein, be provided with the flexible pad with shrouding 42 bottom contact at the supporting seat 6 top, can adopt rubber materials, reduce the striking damage.

To sum up, when in use, the device is inserted into a designated position in a river channel through the insertion part 2, the disturbance plate 38 is enabled to contact with bottom mud of the river channel, biological materials are added into the annular seat 41 through the material adding port, the driving device 34 is opened, the driving device 34 enables the connecting column 33 to rotate through the gear set 35, the diversion seat 36 enables the disturbance plate 37 to stir the bottom mud of the river channel through the disturbance plate 38 to be separated from the river bottom, simultaneously, when the connecting column 33 rotates, the induced draft fan blades 313 rotate, external oxygen enters the sealing seat 311 and then enters the connecting column 33, then enters the diversion seat 36 and the disturbance plate 37 and is discharged from aeration holes in the disturbance plate 37, the dissolved oxygen content of the water body is increased, the oxygen consumption reaction process is accelerated, meanwhile, the rotation of the connecting column 33 enables the telescopic driving rod 51 to rotate through the chain wheel transmission set 39, the telescopic driving rod 51 drives the cam 53 and the driving ring, the cam 53 rotates the pushing convex block 4444 to press the arc-shaped elastic piece 46, so that the sealing plate 42 rotates relative to the annular seat 41, thereby the sealing plate 42 and the through holes 43 on the annular seat 41 are staggered and overlapped, when the sealing plate 42 and the through holes 43 on the annular seat 41 are overlapped, the biological material in the annular seat 41 is discharged into the river channel through the through holes 43 to be mixed with the stirred water body, thereby achieving the repairing operation, meanwhile, the driving ring rotates to drive the driving ring 55 to rotate through the driving chain 54, thereby the driving ring 55 and the arc-shaped convex part 56 at the bottom of the sealing plate 42 are intermittently corresponding or staggered, when the driving ring 55 and the arc-shaped convex part 56 at the bottom of the sealing plate 42 are intermittently corresponding to the sealing plate, the sealing plate 42 and the annular seat 41 are synchronously upward, after the staggering, under the action of the reset spring 47, the sealing plate 42 and the annular seat 41 are reset to be contacted with the top of the supporting seat 6, thereby the sealing plate 42 and the annular seat 41 are vibrated, so that the biological material in the annular seat 41 is more uniformly distributed in the annular seat 41 and is better sprinkled downwards through the through holes 43.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (9)

1. An ecological in-situ dredging repair system for river water, comprising:

connecting seat (1), the outer wall of connecting seat (1) is provided with multiunit inserted part (2), its characterized in that:

a disturbing component (3) is arranged in the connecting seat (1), a supporting seat (6) is arranged on the top surface of the connecting seat (1), a material scattering assembly (4) is arranged on the top surface of the supporting seat (6), a linkage driving piece (5) is arranged on one side of the connecting seat (1), wherein,

spill material subassembly (4) and include from last to down the movable sleeve establish annular seat (41) and shrouding (42) at T shape pole (7) outer wall, shrouding (42) rotate to set up in annular seat (41) bottom, and on annular seat (41) bottom surface and shrouding (42) all annular array seted up multiunit through-hole (43), annular seat (41) are interior to have annular cavity, linkage driving piece (5) drive annular seat (41), shrouding (42) are unloaded and the work of vibration.

2. The system of claim 1, wherein the system comprises: reset springs (47) are sleeved on the outer wall of the T-shaped rod (7) and the position, above the annular seat (41), of the T-shaped rod (7), a supporting frame (45) is arranged at the top of the T-shaped rod (7), a protruding block (44) is arranged on the outer wall of one side of the sealing plate (42), the other end of the supporting frame (45) is arranged on one side of the protruding block (44), a moving block is arranged on the supporting frame (45) in a sliding mode through a vertical sliding groove, an arc-shaped elastic piece (46) is arranged between the moving block and the protruding block (44), and the top of the moving block is connected with the inner wall of the top of the vertical sliding groove through an elastic telescopic rod (48).

3. The riverway water ecology in-situ dredging repair system according to claim 2, wherein: the linkage drive (5) comprises:

a telescopic transmission rod (51) arranged on one side of the connecting seat (1) through a bracket;

the cam (53) is arranged at the top of the telescopic transmission rod (51) and is positioned on the other side of the lug (44), and the cam (53) is used for pushing the lug (44) to extrude the arc-shaped elastic piece (46);

connecting plates (52) are symmetrically arranged on the upper side and the lower side of the cam (53), the connecting plates (52) are movably sleeved on the outer wall of the top of the telescopic transmission rod (51), and the other end of each connecting plate (52) is connected with one side of the moving block.

4. The riverway water ecology in-situ dredging repair system according to claim 3, wherein: the outer wall of the telescopic transmission rod (51) is sleeved with a transmission ring, the outer wall of the supporting seat (6) is movably sleeved with a driving ring (55), the driving ring (55) is in transmission connection with the transmission ring through a driving chain (54), and arc-shaped convex parts (56) are arranged on one side, opposite to the supporting seat (6) and the sealing plate (42), in a staggered mode.

5. The riverway water ecology in-situ dredging repair system according to claim 1, wherein: the disturbing component (3) comprises:

the oxygen supply device (31) is arranged on the inner wall of the top of the connecting seat (1);

a connecting column (33) which is arranged at the bottom of the oxygen supply device (31) and is communicated with the oxygen supply device (31);

the shunting seat (36) is arranged at the bottom of the connecting column (33) and is communicated with the connecting column (33);

oxygen supply unit (31) outer wall annular array sets up multiunit intake pipe (32), and the other end of intake pipe (32) runs through connecting seat (1) lateral wall, connecting pillar (33) run through connecting seat (1) bottom surface back connection reposition of redundant personnel seat (36), the outer wall annular array of reposition of redundant personnel seat (36) sets up disturbing plate (37) that the multiunit is linked together, the aeration hole that the multiunit is linked together is evenly seted up to the both sides of disturbing plate (37), the bottom of disturbing plate (37) is provided with multiunit disturbing piece (38), it is inboard that disturbing plate (37) are in insert (2), be provided with the check valve in connecting pillar (33).

6. The system of claim 5, wherein the system comprises: oxygen supply device (31) is including setting up seal receptacle (311) at connecting seat (1) top inner wall, and seal receptacle (311) and spliced pole (33) intercommunication, spliced pole (33) top is provided with the axis body through link (312), and the axis body top is provided with induced air fan blade (313), inner wall one side of connecting seat (1) is provided with drive arrangement (34) through support frame (45), and the output of drive arrangement (34) passes through gear train (35) and is connected with spliced pole (33) outer wall transmission.

7. The riverway water ecology in-situ dredging repair system according to claim 6, wherein: the bottom of the outer wall of the connecting column (33) is in transmission connection with the bottom of the outer wall of the telescopic transmission rod (51) through a chain wheel transmission group (39), and a movable hole matched with the chain wheel transmission group (39) is formed in the outer wall of the connecting seat (1).

8. The riverway water ecology in-situ dredging repair system according to claim 1, wherein: one side of the connecting seat (1) is provided with a power supply device, the top of the annular seat (41) is provided with a feeding port communicated with the annular cavity, and a cover body is detachably arranged in the feeding port.

9. The riverway water ecology in-situ dredging repair system according to claim 1, wherein: the top surface of the supporting seat (6) is provided with a flexible pad which is contacted with the bottom of the sealing plate (42).

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