CN111424750B

CN111424750B - Port wharf side wall dredging and cleaning structure and construction method thereof

Info

Publication number: CN111424750B
Application number: CN202010296209.2A
Authority: CN
Inventors: 杨美玲
Original assignee: Individual
Current assignee: Guangdong Qinghang Construction Engineering Co ltd
Priority date: 2020-04-15
Filing date: 2020-04-15
Publication date: 2022-11-01
Anticipated expiration: 2040-04-15
Also published as: CN111424750A

Abstract

The invention discloses a port and pier side wall dredging and cleaning structure and a construction method thereof, belonging to the technical field of dredging and cleaning structures.

Description

Port wharf side wall dredging and cleaning structure and construction method thereof

Technical Field

The invention relates to a dredged mud dredging structure, in particular to a side wall dredged mud dredging structure of a port and pier, and also relates to a construction method of the dredged mud dredging structure, in particular to a construction method of the side wall dredged mud dredging structure of the port and pier, belonging to the technical field of the dredged mud dredging structure.

Background

The port is located along the coast of sea, river, lake and reservoir, has waterway intermodal transportation equipment and transportation hubs for safe entrance and exit and berth of ships, is an aggregation point and hub of water and land transportation, a distribution place of industrial and agricultural products and foreign trade import and export materials, and a place for berthing, loading and unloading goods, loading and unloading passengers and supplementing nourishment of ships.

The side wall of the port wharf is easy to slip when a ship body is parked due to long-time soaking of river water or sea water and adhesion of sludge, accident problems of injury of auxiliary ship parking personnel and the like caused by the fact that the ship body is parked on the side wall with excessive sludge, and the sludge is adhered to the side of the ship body and needs to be cleaned frequently, therefore workers working at the port are required to clean the side wall frequently, in addition, the problem of excessive garbage accumulation is easy to occur at the port, and the workers also need to clean the side wall frequently, the cleaning mode obviously consumes a large amount of manpower and material resources, the workers need to clean the side wall frequently on time, the garbage cleaning and the sludge cleaning are divided into two groups, and manpower and material resources are wasted, and therefore the port wharf side wall sludge dredging and cleaning structure and the construction method thereof are invented to optimize the problems.

Disclosure of Invention

The invention mainly aims to provide a port and pier side wall dredging and cleaning structure and a construction method thereof, wherein a device is sunk into the water bottom close to a port side wall, a driving motion auxiliary component and a driven motion auxiliary component are both contacted with the side wall, a driving component is started to drive a threaded rod to rotate, a second internal thread motion pipe is driven to rotate through the threaded rod, the dredging and dredging component is mutually matched with dredged mud in a friction way, so that the second internal thread motion pipe spirally moves downwards to realize spiral downwards dredging and dredging of dredged mud, the dredging and dredging component is contacted with an auxiliary dredging and dredging component to realize material shaking under the matching of a driven dredging and dredging component through the rotation of the dredging and dredging component, and the dredged mud falls to the inner side of a dredging and receiving groove under the action of gravity, the dredging mud enters the inside of the dredging mud containing cavity through the dredging mud containing groove, the dredging mud digging assembly, the dredging mud containing groove and the dredging mud containing cavity move downwards along with the first internal thread moving pipe under the coordination of the auxiliary dredging mud shaking vertical movement limiting assembly when the threaded rod rotates, the absorption pump is started to pump the garbage into the garbage containing cavity through the inside of the threaded rod for collection, the driving movement auxiliary assembly is driven to rotate when the garbage absorption barrel rotates, the garbage absorption barrel is in contact with the side wall and then is rubbed to move, the dredging mud is removed by the device moving along the side wall through the coordination of the rolling balls, the automatic dredging mud removal along the side wall of the port is realized, the automatic garbage absorption and collection are realized, the manpower waste and the time consumption are reduced, and the working efficiency is improved.

The purpose of the invention can be achieved by adopting the following technical scheme:

a port and pier side wall dredging and cleaning structure comprises a driving assembly shell and a threaded rod arranged on one side of the top of the driving assembly shell, wherein a second internal thread motion pipe meshed with the threaded rod is sleeved on the outer side of the threaded rod, a plurality of groups of second connecting arms are arranged on the outer side of the second internal thread motion pipe along the annular part of the second internal thread motion pipe at equal angles, a dredging and excavating assembly is hinged to one end, away from the second internal thread motion pipe, of each second connecting arm, a driven dredging and excavating assembly is arranged on each dredging and excavating assembly, a first internal thread motion pipe meshed with the threaded rod is sleeved on the outer side of the threaded rod and positioned below the second internal thread motion pipe, and an auxiliary dredging and excavating assembly is arranged on one side of the first internal thread motion pipe through a fixing rod, a dredged mud receiving groove is arranged at the bottom of the auxiliary dredged mud shaking assembly, a dredged mud receiving cavity is arranged at the bottom of the outer side wall of the dredged mud receiving groove through a buckle assembly, an auxiliary dredged mud shaking vertical movement limiting assembly is arranged between the auxiliary dredged mud shaking assembly and a driving assembly shell, a driving assembly used for driving the threaded rod to rotate is arranged on the inner side of the driving assembly shell, just the threaded rod runs through extremely drive assembly shell internally mounted has rubbish storage assembly, drive assembly shell one side is installed driven motion auxiliary assembly along the lateral wall equidistant, the initiative motion auxiliary assembly is installed in the outside of a rubbish absorption section of thick bamboo, the multiunit spin is installed to the bottom of drive assembly shell, the threaded rod is cavity just a rubbish absorption section of thick bamboo with the threaded rod intercommunication, the threaded rod bottom with rubbish storage assembly intercommunication.

Preferably, drive assembly includes driving motor, main drive gear, pivot and follows the running gear, driving motor installs one side of bottom in the drive assembly shell, the pivot is installed to driving motor's output, main drive gear is installed at the top in the pivot outside, just main drive gear's outside meshing has from the running gear, the threaded rod runs through to from the inside intermediate position department of running gear.

Preferably, the rubbish is accomodate the subassembly and is accomodate chamber, outage and flange including accomodating pump, rubbish, the interior bottom of drive assembly shell is installed rubbish and is accomodate the chamber, just the outside equidistant distribution in rubbish accomodating chamber has the outage, the pump is accomodate in the top in chamber is installed through the connecting pipe to the rubbish, the flange dish is installed through the connecting pipe to the input of accomodating the pump, the top installation of flange dish the bottom of threaded rod and with the threaded rod intercommunication.

Preferably, the dredging assembly comprises a second fixed limiting plate, a first hinged arm and a dredging shovel, the first hinged arm is hinged to the upper part and the lower part of one end, far away from the second internal thread moving pipe, of the outer wall of the second connecting arm, the dredging shovel is hinged to one end, far away from the second connecting arm, of the inner side of the first hinged arm, the second fixed limiting plate is integrally formed on the back of the dredging shovel, close to the second connecting arm, the side part, far away from the second connecting arm, of the dredging shovel is of a plate body structure, the end part of the dredging shovel is of an arc structure, and the middle part of the dredging shovel is hollow Chu Naqiang.

Preferably, the passive dredging assembly comprises a limiting spring and a first fixed limiting plate, the first fixed limiting plate is of a plate structure and is installed in the middle of one side of the first articulated arm, multiple groups of limiting springs are installed at equal intervals on one side, facing the dredging shovel, of the first fixed limiting plate, and one ends, far away from the first fixed limiting plate, of the limiting springs are installed on one side, facing the first fixed limiting plate, of the second fixed limiting plate.

Preferably, the auxiliary dredging assembly comprises a dredging mud dropping arc plate and a strip-shaped convex rod, the dredging mud dropping arc plate is installed on the outer side wall of the top of the dredging mud receiving groove, the strip-shaped convex rod is installed on the inner side wall of the dredging mud dropping arc plate along the dredging mud dropping arc plate from top to bottom, the strip-shaped convex rod is installed along the inner wall ring part of the dredging mud dropping arc plate at equal intervals, and the strip-shaped convex rod and the end part of the dredging mud shovel are matched with each other in an arc structure.

Preferably, the buckle assembly comprises a hook and a buckle, the buckle is installed at the top of the outer side of the dredged mud receiving cavity at equal intervals along the outer ring part of the dredged mud receiving cavity, the hook is installed at the bottom of the outer side of the dredged mud receiving groove at equal intervals along the outer ring part of the dredged mud receiving groove, and the buckle and the hook are matched with each other.

Preferably, the driven motion auxiliary assembly comprises a third connecting arm, a second roller and a second hinged arm, the third connecting arm is installed on four sides of the outer wall of the driving assembly shell, the upper portion and the lower portion of one end, far away from the driving assembly shell, of the outer wall of the third connecting arm are provided with the second hinged arm, and one end, far away from the third connecting arm, of the inner side of the second hinged arm is hinged to the second roller.

Preferably, the active motion auxiliary assembly comprises a first connecting arm, a first roller and a third hinged arm, the first connecting arm is installed at the outer side of the garbage absorbing cylinder at equal intervals, the third hinged arm is installed at the upper portion and the lower portion of one end of the garbage absorbing cylinder, the inner side of the third hinged arm is far away from the upper portion and the lower portion of one end of the first connecting arm, the first roller is hinged to one end of the third hinged arm, the auxiliary dredging mud vertical motion limiting assembly comprises a limiting slide rod installed on one side of the top of the shell of the driving assembly, a limiting plate is installed at the top of the outer side of the dredging mud dropping arc plate, and the limiting slide rod penetrates through the limiting plate.

A construction method for a port and wharf side wall dredging and cleaning structure comprises the following steps:

step 1: the device is sunk to the water bottom close to the side wall of the port, so that the driving motion auxiliary assembly and the driven motion auxiliary assembly are both contacted with the side wall;

step 2: the driving assembly is started to drive the threaded rod to rotate, the second internal thread moving pipe is driven to rotate through the threaded rod, and the second internal thread moving pipe moves downwards in a spiral mode to dig dredged mud downwards in a spiral mode through mutual matching of friction between the dredged mud digging assembly and the dredged mud;

and 3, step 3: the dredged mud dredging component is contacted with the auxiliary dredged mud shaking component through the rotation of the dredged mud dredging component, and the material shaking is realized under the coordination of the passive dredged mud shaking component;

and 4, step 4: the dredged mud falls to the inner side of the dredged mud accommodating groove under the action of gravity and enters the dredged mud accommodating cavity through the dredged mud accommodating groove;

and 5: when the threaded rod rotates, the dredged mud excavating component, the dredged mud receiving groove and the dredged mud containing cavity move downwards along with the first internal thread moving pipe under the coordination of the auxiliary dredged mud shaking vertical movement limiting component;

and 6: starting an absorption pump to pump the garbage into the garbage containing cavity through the inner part of the threaded rod for collection;

and 7: when the garbage suction cylinder rotates, the active movement auxiliary assembly is driven to rotate, so that the active movement auxiliary assembly is in contact with the side wall and then is rubbed to move, and the device moves along the side wall through the cooperation of the rolling balls to remove the dredged mud.

The invention has the beneficial technical effects that:

the invention provides a port and pier side wall dredging and cleaning structure and a construction method thereof, wherein a device is sunk into the water bottom close to a port side wall, a driving motion auxiliary component and a driven motion auxiliary component are both contacted with the side wall, a driving component is started to drive a threaded rod to rotate, a second internal thread motion pipe is driven to rotate through the threaded rod, the dredging and dredging component is mutually matched with the dredging and dredging by friction, so that the second internal thread motion pipe moves downwards spirally to realize downwards dredging and spirally dredging, the dredging and dredging component is contacted with the auxiliary dredging and dredging component through the rotation of the dredging and dredging component to realize material shaking under the matching of the passive dredging and dredging components, and the dredging falls to the inner side of a dredging and pier side wall receiving groove under the action of gravity, the dredging mud enters the inside of the dredging mud containing cavity through the dredging mud containing groove, the dredging mud digging assembly, the dredging mud containing groove and the dredging mud containing cavity move downwards along with the first internal thread moving pipe under the coordination of the auxiliary dredging mud shaking vertical movement limiting assembly when the threaded rod rotates, the absorption pump is started to pump the garbage into the garbage containing cavity through the inside of the threaded rod for collection, the driving movement auxiliary assembly is driven to rotate when the garbage absorption barrel rotates, the garbage absorption barrel is in contact with the side wall and then is rubbed to move, the dredging mud is removed by the device moving along the side wall through the coordination of the rolling balls, the automatic dredging mud removal along the side wall of the port is realized, the automatic garbage absorption and collection are realized, the manpower waste and the time consumption are reduced, and the working efficiency is improved.

Drawings

Fig. 1 is an overall perspective view of an apparatus according to a preferred embodiment of a port and pier side wall dredging and cleaning structure and a construction method thereof according to the present invention;

FIG. 2 is a schematic perspective view of a combination of a transmission assembly and a moving garbage collection chamber assembly according to a preferred embodiment of the dredging structure for port and wharf side wall and the construction method thereof;

fig. 3 is a schematic perspective view illustrating a combined structure of a dredging assembly, a garbage collecting assembly and a dredging assembly according to a preferred embodiment of the side wall dredging structure of the port and wharf and a construction method thereof;

FIG. 4 is a schematic perspective view of a combination of a dredging assembly and a garbage collecting assembly according to a preferred embodiment of the dredging assembly and the garbage collecting assembly for the side wall of the port and pier;

fig. 5 is a schematic perspective view illustrating a dredging assembly for dredging and cleaning the side walls of the port and pier according to a preferred embodiment of the present invention;

FIG. 6 is an enlarged view of the structure at the A position of a preferred embodiment of the port and pier side wall dredging and cleaning structure and the construction method thereof according to the present invention;

FIG. 7 is an enlarged view of a structure at position B in accordance with a preferred embodiment of the side wall dredging and cleaning structure of the port and pier and the construction method thereof;

fig. 8 is an enlarged view of a structure at position C of a preferred embodiment of a port and pier side wall dredging and cleaning structure and a construction method thereof according to the present invention.

In the figure: 1-a garbage suction cylinder, 2-a dredged mud dropping arc plate, 3-a first connecting arm, 4-a threaded rod, 5-a limiting slide rod, 6-a dredged mud storage cavity, 7-a driving assembly housing, 8-a main drive gear, 9-a slave drive gear, 10-a driving motor, 11-a rotating shaft, 12-a dredged mud shovel, 13-a first fixing limiting plate, 14-a first articulated arm, 15-a second connecting arm, 16-a second fixing limiting plate, 17-a limiting spring, 18-a garbage storage cavity, 19-a suction pump, 20-a third connecting arm, 21-a second articulated arm, 22-a second roller, 23-a first roller, 24-a limiting plate, 25-a first internal thread motion pipe, 26-a fixing rod, 27-a second internal thread motion pipe, 28-a rolling ball, 29-a dredged mud groove, 30-a bar-shaped convex rod, 31-a hook, 32-a buckle, 33-a third articulated arm, 34-a drain hole and 35-a flange plate receiving hole.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example one

As shown in fig. 1-8, the port wharf side wall dredging and cleaning structure provided in this embodiment includes a driving assembly housing 7 and a threaded rod 4 installed on one side of the top of the driving assembly housing 7, a second internal thread motion tube 27 engaged with the threaded rod 4 is sleeved on the outer side of the threaded rod 4, a plurality of sets of second connecting arms 15 are installed on the outer side of the second internal thread motion tube 27 along the ring portion of the second internal thread motion tube 27 at equal angles, a dredging component is hinged to one end of the second connecting arm 15 away from the second internal thread motion tube 27, a passive dredging component is installed on the dredging component, a first internal thread motion tube 25 engaged with the threaded rod 4 is sleeved on the outer side of the threaded rod 4 and below the second internal thread motion tube 27, an auxiliary dredging component is installed on one side of the first internal thread motion tube 25 through a fixing rod 26, the bottom of the auxiliary dredging assembly is provided with a dredging accommodating groove 29, the bottom of the outer side wall of the dredging accommodating groove 29 is provided with a dredging accommodating cavity 6 through a buckle assembly, an auxiliary dredging assembly and a driving assembly shell 7 are provided with an auxiliary dredging vertical movement limiting assembly, the inner side of the driving assembly shell 7 is provided with a driving assembly for driving a threaded rod 4 to rotate, the threaded rod 4 penetrates through the driving assembly shell 7 and is internally provided with a garbage accommodating assembly, one side of the driving assembly shell 7 is provided with a driven movement auxiliary assembly along the side wall at equal intervals, the outer side of the garbage accommodating cylinder 1 is provided with a driving movement auxiliary assembly, the bottom of the driving assembly shell 7 is provided with a plurality of groups 28, the threaded rod 4 is a hollow rolling ball and is communicated with the threaded rod 4, and the bottom of the threaded rod 4 is communicated with the garbage accommodating assembly.

The device is sunk into the water bottom close to the side wall of the port, the active motion auxiliary component and the driven motion auxiliary component are both contacted with the side wall, the driving component is started to drive the threaded rod 4 to rotate, the second internal thread motion pipe 27 is driven to rotate by the threaded rod 4, the dredging and dredging component is mutually matched with the dredged mud by friction, so that the second internal thread motion pipe 27 moves downwards in a spiral way to realize downwards dredging and dredging of the dredged mud, the dredging and dredging component is contacted with the auxiliary dredging and dredging component by the rotation of the dredging and dredging component to realize material shaking under the matching of the passive dredging and dredging component, the dredged mud falls to the inner side of the dredging and mud receiving groove 29 under the action of gravity and enters the inside of the dredging and mud receiving cavity 6 through the dredging and mud receiving groove 29, when the threaded rod 4 rotates, the dredged mud digging assembly, the dredged mud receiving groove 29 and the dredged mud containing cavity 6 move downwards along with the first internal thread moving pipe 25 under the matching of the vertical dredged mud shaking motion limiting assembly, the absorption pump 19 is started to pump garbage into the garbage containing cavity 18 through the inside of the threaded rod 4 for collection, the active motion auxiliary assembly is driven to rotate when the garbage absorption barrel 1 rotates, the garbage absorption barrel is in contact with the side wall and then rubbed to move, the dredged mud is removed through the matching of the rolling balls 28, the dredged mud is automatically removed along the side wall of the port, the dredged mud is automatically adsorbed and collected, the labor waste and the time consumption are reduced, and the working efficiency is improved.

In this embodiment, the driving assembly comprises a driving motor 10, a main transmission gear 8, a rotating shaft 11 and a secondary transmission gear 9, the driving motor 10 is installed on one side of the bottom in the driving assembly shell 7, the rotating shaft 11 is installed at the output end of the driving motor 10, the main transmission gear 8 is installed at the top of the outer side of the rotating shaft 11, the secondary transmission gear 9 is meshed with the outer side of the main transmission gear 8, and the threaded rod 4 penetrates to the middle position inside the secondary transmission gear 9.

The driving motor 10 is started, the rotating shaft 11 is driven to rotate through the driving motor 10, the main transmission gear 8 is driven to rotate through the rotating shaft 11, the driven rotating gear 9 is driven to rotate through the main transmission gear 8, and the threaded rod 4 is driven to rotate through the driven rotating gear 9.

In this embodiment, rubbish is accomodate the subassembly and is including accomodating pump 19, rubbish accomodate chamber 18, outage 34 and flange 35, drive assembly shell 7's interior bottom is installed rubbish and is accomodate chamber 18, and the equidistant distribution in outside in rubbish accomodate chamber 18 has outage 34, rubbish accomodate the top in chamber 18 and is installed through the connecting pipe and is accomodate pump 19, the flange 35 is installed through the connecting pipe to the input of accomodating pump 19, the bottom of the top installation threaded rod 4 of flange 35 and communicate with threaded rod 4.

The garbage and water flow through the inner wall of the threaded rod 4 into the garbage containing cavity 18 through the flange 35 by starting the absorbing pump 19, and the liquid is discharged through the liquid discharge hole 34 to leave the garbage for collection.

In this embodiment, the dredging and dredging assembly comprises a second fixed limiting plate 16, a first articulated arm 14 and a dredging shovel 12, wherein the first articulated arm 14 is articulated at the upper and lower parts of one end of the outer wall of the second connecting arm 15 far away from the second internal thread moving tube 27, the dredging shovel 12 is articulated at one end of the inner side of the first articulated arm 14 far away from the second connecting arm 15, the second fixed limiting plate 16 is integrally formed at the back of the dredging shovel 12 close to the second connecting arm 15, one side part of the dredging shovel 12 far away from the second connecting arm 15 is of a plate body structure, the end part of the dredging shovel 12 is of an arc structure, and the middle part of the dredging shovel 12 is internally hollow Chu Naqiang.

The dredging shovel 12 is in arc-shaped end structure and is contacted with the dredged mud for dredging, so that the dredged mud enters a hollow Chu Naqiang in the middle of the dredging shovel 12, and the dredging is performed.

In this embodiment, the passive dredging assembly comprises a limiting spring 17 and a first fixed limiting plate 13, the first fixed limiting plate 13 is of a plate structure and is installed in the middle of one side of the first articulated arm 14, multiple groups of limiting springs 17 are installed at equal intervals on one side of the first fixed limiting plate 13 facing the dredging shovel 12, one end, away from the first fixed limiting plate 13, of each limiting spring 17 is installed on one side of the second fixed limiting plate 16 facing the first fixed limiting plate 13, the auxiliary dredging assembly comprises a dredging mud dropping arc 2 and a bar-shaped convex rod 30, the dredging mud dropping arc 2 is installed on the outer side wall of the top of the dredging mud receiving groove 29, the bar-shaped convex rods 30 are installed on the inner side wall of the dredging mud dropping arc 2 from top to bottom, the bar-shaped convex rods 30 are installed at equal intervals along the ring part of the inner wall of the dredging mud dropping arc 2, and the bar-shaped convex rods 30 are matched with the end part of the dredging shovel 12 in an arc structure.

The dredged mud is shaken off into the dredged mud receiving groove 29 by contacting the dredged mud shovel 12 with the strip-shaped convex rod 30 and then driving the dredged mud shovel 12 to be matched with the limiting spring 17 for vibration, and then enters the dredged mud receiving cavity 6 for receiving through the dredged mud receiving groove 29.

In the present embodiment, the latch assembly comprises hooks 31 and latches 32, the top of the outside of the chamber 6 is provided with the latches 32 at equal intervals along the outer ring of the chamber 6, the bottom of the outside of the channel 29 is provided with the hooks 31 at equal intervals along the outer ring of the channel 29, and the latches 32 and the hooks 31 are mutually matched.

In this embodiment, the driven motion assisting assembly comprises a third connecting arm 20, a second roller 22 and a second hinge arm 21, wherein the third connecting arm 20 is installed on four sides of the outer wall of the driving assembly housing 7, the upper and lower parts of the end of the outer wall of the third connecting arm 20 far away from the driving assembly housing 7 are both provided with the second hinge arm 21, and the end of the inner side of the second hinge arm 21 far away from the third connecting arm 20 is hinged with the second roller 22.

In this embodiment, the active movement auxiliary assembly includes first connecting arm 3, first cylinder 23 and third articulated arm 33, first connecting arm 3 is installed to the equidistant outside of a rubbish absorption section of thick bamboo 1, and the one end upper and lower part of keeping away from a rubbish absorption section of thick bamboo 1 in the 3 outside of first connecting arm is installed with third articulated arm 33, the inboard of third articulated arm 33 and the one end of keeping away from first connecting arm 3 articulate has first cylinder 23, supplementary shake the spacing subassembly of the vertical movement of dredged mud including installing the spacing slide bar 5 in drive assembly shell 7 top one side, and dredged mud is fallen 2 outside tops and is installed limiting plate 24, spacing slide bar 5 runs through limiting plate 24.

Example two

step 2: the driving assembly is started to drive the threaded rod 4 to rotate, the threaded rod 4 drives the second internal thread motion pipe 27 to rotate, and the second internal thread motion pipe 27 is driven to move downwards in a spiral mode to dig dredged mud downwards through mutual matching of friction between the dredged mud digging assembly and the dredged mud;

and step 3: the dredged mud excavating component is contacted with the auxiliary dredged mud shaking component through the rotation of the dredged mud excavating component, and the material shaking is realized under the coordination of the passive dredged mud shaking component;

and 4, step 4: the dredged mud falls to the inner side of the dredged mud receiving groove 29 under the action of gravity and enters the inside of the dredged mud containing cavity 6 through the dredged mud receiving groove 29;

and 5: the dredged mud excavating component, the dredged mud receiving groove 29 and the dredged mud containing cavity 6 move downwards along with the first internal thread moving pipe 25 under the coordination of the auxiliary dredged mud shaking vertical movement limiting component when the threaded rod 4 rotates;

and 6: starting the absorption pump 19 to pump the garbage into the garbage accommodating cavity 18 through the inside of the threaded rod 4 for collection;

and 7: when the garbage suction cylinder 1 rotates, the active motion auxiliary assembly is driven to rotate, so that the active motion auxiliary assembly is in contact with the side wall and then rubbed to move, and the device moves along the side wall through the cooperation of the rolling balls 28 to remove the dredged mud.

The above description is only a further embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its idea within the scope of the present invention.

Claims

1. The utility model provides a port and pier side wall dredged mud dredging clearance structure which characterized in that: the dredging and dredging device comprises a driving component shell (7) and a threaded rod (4) installed on one side of the top of the driving component shell (7), wherein a second internal thread moving pipe (27) meshed with the threaded rod (4) is sleeved on the outer side of the threaded rod (4), a plurality of groups of second connecting arms (15) are installed on the outer side of the second internal thread moving pipe (27) along the ring part of the second internal thread moving pipe (27) at equal angles, one end, far away from the second internal thread moving pipe (27), of each second connecting arm (15) is hinged with a dredging and dredging component, the dredging and dredging component is provided with a passive dredging and dredging component, a first internal thread moving pipe (25) meshed with the threaded rod (4) is sleeved on the outer side of the threaded rod (4) and positioned below the second internal thread moving pipe (27), an auxiliary dredging mud component is mounted on one side of the first internal thread motion pipe (25) through a fixing rod (26), a dredging mud receiving groove (29) is mounted at the bottom of the auxiliary dredging mud component, a dredging mud receiving cavity (6) is mounted at the bottom of the outer side wall of the dredging mud receiving groove (29) through a buckle component, an auxiliary dredging mud vertical motion limiting component is mounted between the auxiliary dredging mud component and a driving component shell (7), a driving component for driving the threaded rod (4) to rotate is mounted on the inner side of the driving component shell (7), and a garbage receiving component is mounted in the driving component shell (7) in a penetrating manner of the threaded rod (4) Driven motion auxiliary assemblies are arranged on one side of the driving assembly shell (7) at equal intervals along the side wall, a driving motion auxiliary assembly is arranged on the outer side of the garbage suction cylinder (1), a plurality of groups of rolling balls (28) are arranged at the bottom of the driving assembly shell (7), the threaded rod (4) is hollow, the garbage suction cylinder (1) is communicated with the threaded rod (4), and the bottom of the threaded rod (4) is communicated with the garbage collection assembly; the driving assembly comprises a driving motor (10), a main transmission gear (8), a rotating shaft (11) and a secondary rotating gear (9), the driving motor (10) is installed on one side of the bottom in the driving assembly shell (7), the rotating shaft (11) is installed at the output end of the driving motor (10), the main transmission gear (8) is installed at the top of the outer side of the rotating shaft (11), the secondary rotating gear (9) is meshed with the outer side of the main transmission gear (8), and the threaded rod (4) penetrates through the middle position inside the secondary rotating gear (9); rubbish is accomodate the subassembly and is accomodate chamber (18), outage (34) and flange dish (35) including absorbing pump (19), rubbish, drive assembly shell (7) interior bottom is installed rubbish and is accomodate chamber (18), just the outside equidistant distribution in rubbish accomodate chamber (18) has outage (34), the top of rubbish accomodate chamber (18) is installed through the connecting pipe and is absorbed pump (19), flange dish (35) are installed through the connecting pipe to the input of inhaling pump (19), the top installation of flange dish (35 the bottom of threaded rod (4) and with threaded rod (4) intercommunication.

2. The port and pier side wall dredging structure of claim 1, wherein: the dredged mud excavating component comprises a second fixed limiting plate (16), a first hinged arm (14) and a dredged mud shovel (12), wherein the upper part and the lower part of one end, far away from the second internal thread moving pipe (27), of the outer wall of the second connecting arm (15) are hinged with the first hinged arm (14), one end, far away from the second connecting arm (15), of the inner side of the first hinged arm (14) is hinged with the dredged mud shovel (12), the back face of the dredged mud shovel (12) is close to the second connecting arm (15), the second fixed limiting plate (16) is integrally formed, one side part, far away from the second connecting arm (15), of the dredged mud shovel (12) is of a plate body structure, the end part of the dredged mud shovel (12) is of an arc structure, and a hollow Chu Naqiang is arranged in the middle part of the dredged mud shovel (12).

3. The port and pier side wall dredging structure of claim 2, wherein: the passive dredging assembly comprises a limiting spring (17) and a first fixed limiting plate (13), the first fixed limiting plate (13) is of a plate structure and is arranged in the middle of one side of the first articulated arm (14), a plurality of groups of limiting springs (17) are arranged at equal intervals on one side, facing the dredging shovel (12), of the first fixed limiting plate (13), and one end, far away from the first fixed limiting plate (13), of each limiting spring (17) is arranged on one side, facing the first fixed limiting plate (13), of the second fixed limiting plate (16).

4. The port and pier side wall dredging structure of claim 2, wherein: the auxiliary dredging assembly comprises a dredging mud dropping arc-shaped plate (2) and a strip-shaped convex rod (30), the dredging mud dropping arc-shaped plate (2) is installed on the outer side wall of the top of the dredging mud receiving groove (29), the strip-shaped convex rod (30) is installed on the inner side wall of the dredging mud dropping arc-shaped plate (2) from top to bottom along the dredging mud dropping arc-shaped plate (2), the strip-shaped convex rod (30) is installed on the inner wall ring part of the dredging mud dropping arc-shaped plate (2) at equal intervals, and the strip-shaped convex rod (30) is matched with the end part of the dredging mud shovel (12) in an arc-shaped structure.

5. The port and pier side wall dredging and cleaning structure of claim 1, wherein: the buckle assembly comprises a hook (31) and a buckle (32), the buckle (32) is installed on the top of the outer side of the dredged mud receiving cavity (6) at equal intervals along the outer ring part of the dredged mud receiving cavity (6), the hook (31) is installed on the bottom of the outer side of the dredged mud receiving groove (29) at equal intervals along the outer ring part of the dredged mud receiving groove (29), and the buckle (32) and the hook (31) are matched with each other.

6. The port and pier side wall dredging structure of claim 1, wherein: the driven motion auxiliary assembly comprises a third connecting arm (20), a second roller (22) and a second hinged arm (21), wherein the third connecting arm (20) is installed on the four sides of the outer wall of the driving assembly shell (7), the upper portion and the lower portion of one end, far away from the driving assembly shell (7), of the outer wall of the third connecting arm (20) are provided with the second hinged arm (21), and the end, far away from the third connecting arm (20), of the inner side of the second hinged arm (21) is hinged to the second roller (22).

7. The port and pier side wall dredging structure of claim 4, wherein: the active motion auxiliary assembly comprises a first connecting arm (3), a first roller (23) and a third hinged arm (33), the first connecting arm (3) is installed on the outer side of the garbage absorbing cylinder (1) at equal intervals, the outer side of the first connecting arm (3) is far away from the upper portion and the lower portion of one end of the garbage absorbing cylinder (1) and is provided with the third hinged arm (33), the inner side of the third hinged arm (33) is far away from one end of the first connecting arm (3) and is hinged with the first roller (23), the auxiliary dredging mud vertical motion limiting assembly comprises a limiting slide rod (5) installed on one side of the top of a shell (7) of the driving assembly, a third limiting plate (24) is installed on the top of the outer side of a dredging mud dropping arc plate (2), and the limiting slide rod (5) penetrates through the third limiting plate (24).

8. The construction method for the port and pier side wall dredging and cleaning structure according to claim 1, characterized by comprising the following steps:

step 2: the driving assembly is started to drive the threaded rod (4) to rotate, the second internal thread moving pipe (27) is driven to rotate through the threaded rod (4), and the second internal thread moving pipe (27) moves downwards in a spiral mode to dig and take dredged mud downwards in a spiral mode through mutual matching of friction between the dredged mud digging assembly and the dredged mud;

and step 3: the dredged mud dredging component is contacted with the auxiliary dredged mud shaking component through the rotation of the dredged mud dredging component, and the material shaking is realized under the coordination of the passive dredged mud shaking component;

and 4, step 4: the dredged mud falls to the inner side of the dredged mud receiving groove (29) under the action of gravity and enters the inside of the dredged mud containing cavity (6) through the dredged mud receiving groove (29);

and 5: when the threaded rod (4) rotates, the dredged mud excavating component, the dredged mud receiving groove (29) and the dredged mud containing cavity (6) move downwards along with the first internal thread moving pipe (25) under the coordination of the auxiliary dredged mud shaking vertical movement limiting component;

step 6: starting an absorption pump (19) to pump the garbage into a garbage accommodating cavity (18) through the inside of the threaded rod (4) for collection;

and 7: when the garbage suction cylinder (1) rotates, the active motion auxiliary assembly is driven to rotate, so that the garbage suction cylinder is in contact with the side wall and then rubbed to move, and the device moves along the side wall by matching the rolling balls (28) to remove the dredged mud.