CN108425394A - Riverway sludge collection device - Google Patents
Riverway sludge collection device Download PDFInfo
- Publication number
- CN108425394A CN108425394A CN201810333464.2A CN201810333464A CN108425394A CN 108425394 A CN108425394 A CN 108425394A CN 201810333464 A CN201810333464 A CN 201810333464A CN 108425394 A CN108425394 A CN 108425394A
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- China
- Prior art keywords
- mud
- fixedly connected
- component
- shaft
- pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F3/00—Dredgers; Soil-shifting machines
- E02F3/04—Dredgers; Soil-shifting machines mechanically-driven
- E02F3/88—Dredgers; Soil-shifting machines mechanically-driven with arrangements acting by a sucking or forcing effect, e.g. suction dredgers
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/12—Treatment of sludge; Devices therefor by de-watering, drying or thickening
- C02F11/121—Treatment of sludge; Devices therefor by de-watering, drying or thickening by mechanical de-watering
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F3/00—Dredgers; Soil-shifting machines
- E02F3/04—Dredgers; Soil-shifting machines mechanically-driven
- E02F3/88—Dredgers; Soil-shifting machines mechanically-driven with arrangements acting by a sucking or forcing effect, e.g. suction dredgers
- E02F3/90—Component parts, e.g. arrangement or adaptation of pumps
- E02F3/92—Digging elements, e.g. suction heads
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F3/00—Dredgers; Soil-shifting machines
- E02F3/04—Dredgers; Soil-shifting machines mechanically-driven
- E02F3/88—Dredgers; Soil-shifting machines mechanically-driven with arrangements acting by a sucking or forcing effect, e.g. suction dredgers
- E02F3/90—Component parts, e.g. arrangement or adaptation of pumps
- E02F3/92—Digging elements, e.g. suction heads
- E02F3/9212—Mechanical digging means, e.g. suction wheels, i.e. wheel with a suction inlet attached behind the wheel
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F3/00—Dredgers; Soil-shifting machines
- E02F3/04—Dredgers; Soil-shifting machines mechanically-driven
- E02F3/88—Dredgers; Soil-shifting machines mechanically-driven with arrangements acting by a sucking or forcing effect, e.g. suction dredgers
- E02F3/90—Component parts, e.g. arrangement or adaptation of pumps
- E02F3/92—Digging elements, e.g. suction heads
- E02F3/9256—Active suction heads; Suction heads with cutting elements, i.e. the cutting elements are mounted within the housing of the suction head
- E02F3/9268—Active suction heads; Suction heads with cutting elements, i.e. the cutting elements are mounted within the housing of the suction head with rotating cutting elements
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F5/00—Dredgers or soil-shifting machines for special purposes
- E02F5/28—Dredgers or soil-shifting machines for special purposes for cleaning watercourses or other ways
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Mining & Mineral Resources (AREA)
- Civil Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Treatment Of Sludge (AREA)
Abstract
The present invention relates to riverway sludge process fields, more particularly to a kind of riverway sludge collection device, including extraction mud pipe component, the anti-blocking component of broken mud, dredging tube, sludge head assembly, dehydration transfer box assembly, defeated mud band component and installation frame plate, the bottom end of the extraction mud pipe component connects sludge head assembly;The lower end of the lateral surface of the extraction mud pipe component connects the broken anti-blocking component of mud, and the broken anti-blocking component of mud is arranged in the upper end of sludge head assembly;The upper end of the extraction mud pipe component is connected to and in communication with one end of dredging tube, and the other end of dredging tube is fixedly connected on the upper end of dehydration transfer box assembly;The extraction mud pipe component connection dehydration transfer box assembly;The dehydration transfer box assembly connects defeated mud band component, and defeated mud is arranged with component in the lower end of dehydration transfer box assembly.The present invention can carry out dehydration appropriate to the mud extracted, defeated mud band component is internally provided with, for being conveyed to dewatered mud so that mud is directly disposed to bank, improves mud collection efficiency.
Description
Technical field
The present invention relates to riverway sludge process fields, more particularly to a kind of riverway sludge collection device.
Background technology
Riverway sludge is the fine particles such as clay mineral under the action of intergranular electrostatic force and molecular attraction, in ocean or lake
Deposition occurs in the slow flowing water environment such as mooring basin area and is formed by cotton-shaped and honeycomb structure.Mud is both a kind of waste,
And a kind of resource that can be re-used, it is therefore desirable to which riverway sludge is collected using processing, but in the prior art
Mud take collection device there is digging efficiencies when in use low, the problem of poor excavation effect, and existing mud excavates dress
Dehydration and transport process appropriate can not be carried out during excavation to sludge by setting.
Invention content
The object of the present invention is to provide a kind of riverway sludge collection devices, can effectively solve the problems of the prior art;
The present invention's is internally provided with extraction mud pipe component, can be extracted to the mud inside river by extraction mud pipe component, inside is set
There is the anti-blocking component of broken mud, the broken anti-blocking component of mud to be arranged in the lower end of extraction mud pipe component, can to the mud that is being extracted into
Row broken agitation treatment appropriate is conducive to improve the extraction efficiency of mud and prevents extraction mud pipe component from blocking, is internally provided with de-
Water transfer box assembly can carry out dehydration appropriate to the mud extracted, defeated mud band component is internally provided with, for de-
Mud after water is conveyed so that mud is directly disposed to bank, convenient for improving the collection treatment effeciency of mud.
The purpose of the present invention is achieved through the following technical solutions:
In riverway sludge collection device, including extraction mud pipe component, the anti-blocking component of broken mud, dredging tube, sludge head assembly, dehydration
Turnning box component, defeated mud band component and installation frame plate, the bottom end of the extraction mud pipe component connect sludge head assembly;The extraction mud pipe group
The lower end of the lateral surface of part connects the broken anti-blocking component of mud, and the broken anti-blocking component of mud is arranged in the upper end of sludge head assembly;The pumping mud
The upper end of tube assembly is connected to and in communication with one end of dredging tube, and the other end of dredging tube is fixedly connected on the upper of dehydration transfer box assembly
End;The extraction mud pipe component connection dehydration transfer box assembly;The dehydration transfer box assembly connects defeated mud band component, defeated mud band group
Part is arranged in the lower end of dehydration transfer box assembly;The bottom end of bottom end and defeated mud with component of the dehydration transfer box assembly is all fixed
It is connected on installation frame plate.
The extraction mud pipe component includes extraction mud pipe ontology, pipe, into mud box, conveyor screw, rotary shaft, first pulley, second
Belt wheel, third belt wheel, fixed plate and limit annulus;The upper end of the extraction mud pipe ontology is connected through a screw thread pipe, the top of pipe
End is welded to connect and is connected into mud box;The rotary shaft is from top to bottom sequentially passed through into mud box, pipe and extraction mud pipe ontology, rotation
The upper and lower ends of axis are rotatably assorted respectively to be connected on mud box and on extraction mud pipe ontology;The upper end of the rotary shaft is from top to bottom
The first pulley that is fixedly connected sequentially and third belt wheel, first pulley and third belt wheel are arranged in the upper end into mud box;Described first
Belt wheel connects the second belt wheel by driving belt;The bottom end of the rotary shaft is fixedly connected with sludge head assembly, and sludge head assembly is set
It sets in the lower end of extraction mud pipe ontology;The fixed plate is fixedly connected on mud box side;The conveyor screw clearance fit connection
In the inside of extraction mud pipe ontology, the centre of conveyor screw is fixedly connected on the rotary shaft;Connected by screw thread on the extraction mud pipe ontology
Connect lower two limits annulus;The lower end of the lateral surface of the extraction mud pipe ontology is opened up into mud groove.
The anti-blocking component of broken mud includes gear shaft, transmission gear, external toothing, revoling tube, annulus mounting bracket and multiple
Anti-blocking agitating plate;The upper end of the gear shaft is fixedly connected with the second belt wheel, and the upper end of gear shaft passes through the bearing block with bearing
It is connected in fixed plate;The lower end of the gear shaft is fixedly connected with transmission gear, transmission gear engagement connection external toothing, external toothing
It is fixedly connected on revoling tube, the lower end of revoling tube is fixedly connected with annulus mounting bracket, and the bottom end of annulus mounting bracket is uniformly solid
Surely multiple anti-blocking agitating plates are connected;The revoling tube and annulus mounting bracket, which are all rotatably assorted, to be connected on extraction mud pipe ontology, and one
A limit annulus is fitted in the upper end of revoling tube, another limit annulus is fitted in the lower end of annulus mounting bracket.
The dredging tube is a rectangular tube, and one end of dredging tube is fixedly connected and is connected into mud box, dredging tube it is another
One end is fixedly connected on dehydration transfer box assembly.
The sludge head assembly includes rotation frame plate, universal driving shaft and multiple sludge pawls;The top welding of the rotation frame plate
Connect universal driving shaft;The upper end of the universal driving shaft connects rotary shaft by shaft coupling;The bottom end of the rotation frame plate is equal by screw
The even multiple sludge pawls of connection.
The dehydration transfer box assembly includes dewatering box ontology, rotation axis, support shaft, rotation pipe, polylith group mud plate, falls mud
Pipe, the 4th belt wheel and the 5th belt wheel;The bottom end of the dewatering box ontology is fixedly connected with support shaft, and the bottom end of support shaft is fixedly connected
On installation frame plate;The bottom end of the rotation axis is connected to by the bearing block with bearing on the bottom plate of dewatering box ontology;Institute
It states and is fixedly connected with rotation pipe in rotation axis, uniform welding polylith dials mud plate on the lateral surface of rotation pipe;The upper end of the rotation axis
From top to bottom be fixedly connected sequentially the 4th belt wheel and the 5th belt wheel, and the 5th belt wheel connects third belt wheel by driving belt;It is described
4th belt wheel connects defeated mud band component;Around equipped with multiple drainage holes and a spoil disposal on the bottom plate of the dewatering box ontology
Mouthful, the right end in the bottom plate for falling mud pipe is arranged in mud discharging mouth, and the lower end of mud discharging mouth, which is connected to and in communication with, falls mud pipe;It is described to fall the setting of mud pipe
In surface of the defeated mud with component;The right end of the dredging tube is fixedly connected on the top of dewatering box ontology.
The defeated mud band component includes the 6th belt wheel, transmission shaft, dynamic bevel gear, L-shaped seat board, drive bevel gear, first
Roller shaft, active roll tube, passive roller, defeated mudcake band, roller frame, support plate, the second roller shaft, driving motor and motor cabinet;
The driving motor is connected to by motor cabinet on the leading flank of roller frame;The output shaft of the driving motor is connected by shaft coupling
Connect the first roller shaft, the middle-end of the first roller shaft is rotatably assorted the rear and front end in the left side for being connected to roller frame, the first roller shaft
On be fixedly connected with active roll tube, active roll tube is arranged in the inside of roller frame, and the rear end of the first roller shaft is fixedly connected with transmission cone
Gear, drive bevel gear engagement connection dynamic bevel gear, dynamic bevel gear are fixedly connected on the lower end of transmission shaft, the bottom of transmission shaft
End, which is rotatably assorted, to be connected on L-shaped seat board, and L-shaped seat board is connected by screw in the rear end of roller frame;The upper end of the transmission shaft
It is fixedly connected with the 6th belt wheel, the 6th belt wheel connects the 5th belt wheel by driving belt;The lower end of the roller frame is fixedly connected with two
The bottom end of block support plate, support plate is connected by screw on installation frame plate;The passive roller is fixedly connected on the second roller
On axis, the rear and front end of the second roller shaft is connected to the right end of roller frame, passive roller by the bearing block with bearing respectively
Pass through defeated mudcake band connection active roll tube.
The distance between the bottom surface of described group of mud plate and the bottom plate of dewatering box ontology are not more than one centimetre;In described group of mud plate
Equipped with dehydration slot.
The anti-blocking agitating plate is arranged in the outer end into mud groove of extraction mud pipe ontology.
Beneficial effects of the present invention:A kind of riverway sludge collection device of the present invention, can effectively solve in the prior art
The problem of;The present invention's is internally provided with extraction mud pipe component, can be extracted to the mud inside river by extraction mud pipe component,
It is internally provided with the anti-blocking component of broken mud, the broken anti-blocking component of mud is arranged in the lower end of extraction mud pipe component, can be to being extracted
Mud carries out broken agitation treatment appropriate, is conducive to improve the extraction efficiency of mud and prevents extraction mud pipe component from blocking, internal
Equipped with dehydration transfer box assembly, dehydration appropriate can be carried out to the mud extracted, be internally provided with defeated mud band component, use
It is conveyed in dewatered mud so that mud is directly disposed to bank, convenient for improving the collection treatment effeciency of mud;
And invention entirety is driven using a motor, is coordinated closely between each component, working efficiency is higher.
Description of the drawings
Fig. 1 is the overall structure diagram one of the present invention;
Fig. 2 is the overall structure diagram two of the present invention;
Fig. 3 is the structural schematic diagram of the extraction mud pipe component inside the present invention;
Fig. 4 is the partial structural diagram of the extraction mud pipe ontology inside the present invention;
Fig. 5 is the structural schematic diagram of the anti-blocking component of broken mud inside the present invention;
Fig. 6 is the structural schematic diagram of the sludge head assembly inside the present invention;
Fig. 7 is the structural schematic diagram one of the dehydration transfer box assembly inside the present invention;
Fig. 8 is the structural schematic diagram two of the dehydration transfer box assembly inside the present invention;
Fig. 9 is the structural schematic diagram of the dewatering box ontology inside the present invention;
Figure 10 is structural schematic diagram one of the defeated mud with component inside the present invention;
Figure 11 is structural schematic diagram two of the defeated mud with component inside the present invention;
Figure 12 is the structural schematic diagram of the installation frame plate inside the present invention.
In figure:Extraction mud pipe component 1;Extraction mud pipe ontology 1-1;Into mud groove 1-1-1;Pipe 1-2;Into mud box 1-3;Conveyor screw 1-
4;Rotary shaft 1-5;First pulley 1-6;Second belt wheel 1-7;Third belt wheel 1-8;Fixed plate 1-9;Limit annulus 1-10;Broken mud is anti-
Blocking component 2;Gear shaft 2-1;Transmission gear 2-2;External toothing 2-3;Revoling tube 2-4;Annulus mounting bracket 2-5;Anti-blocking agitating plate
2-6;Dredging tube 3;Sludge head assembly 4;Rotate frame plate 4-1;Universal driving shaft 4-2;Sludge pawl 4-3;It is dehydrated transfer box assembly 5;Dehydration
Case ontology 5-1;Rotation axis 5-2;Support shaft 5-3;Rotation pipe 5-4;Dial mud plate 5-5;Fall mud pipe 5-6;4th belt wheel 5-7;5th
Belt wheel 5-8;Defeated mud band component 6;6th belt wheel 6-1;Transmission shaft 6-2;Dynamic bevel gear 6-3;L-shaped seat board 6-4;Drive bevel gear
6-5;First roller shaft 6-6;Active roll tube 6-7;Passive roller 6-8;Defeated mudcake band 6-9;Roller frame 6-10;Support plate 6-11;
Second roller shaft 6-12;Driving motor 6-13;Motor cabinet 6-14;Frame plate 7 is installed.
Specific implementation mode
Invention is further described in detail by 1-12 below in conjunction with the accompanying drawings.
Specific implementation mode one:
As shown in figs. 1-12, riverway sludge collection device, including the anti-blocking component 2 of extraction mud pipe component 1, broken mud, dredging tube 3,
Sludge head assembly 4, dehydration transfer box assembly 5, defeated mud band component 6 and installation frame plate 7, the bottom end connection of the extraction mud pipe component 1
Sludge head assembly 4;The lower end of the lateral surface of the extraction mud pipe component 1 connects the broken anti-blocking component 2 of mud, and the broken anti-blocking component 2 of mud is arranged
In the upper end of sludge head assembly 4;The upper end of the extraction mud pipe component 1 is connected to and in communication with one end of dredging tube 3, dredging tube 3 it is another
One end is fixedly connected on the upper end of dehydration transfer box assembly 5;The connection of the extraction mud pipe component 1 dehydration transfer box assembly 5;It is described de-
Water transfer box assembly 5 connects defeated mud band component 6, and defeated mud is arranged with component 6 in the lower end of dehydration transfer box assembly 5;The dehydration
The bottom end of the bottom end of transfer box assembly 5 and defeated mud with component 6 is all fixedly connected on installation frame plate 7.A kind of river of the present invention
Mud collection device, when in use, mobile machine can be carried out first inside river by being mounted on the installation frame plate 7 of the present invention
On the mechanical arm of tool equipment, extraction mud pipe component 1 is driven to be inserted into the inside in river by mechanical arm so that extraction mud pipe component 1, broken
The anti-blocking component 2 of mud and sludge head assembly 4 are contacted with the mud inside river, and defeated mud band component 6 is then connected to power supply and is passed through
Control switch is opened, and defeated mud band component 6 can drive dehydration transfer box assembly 5 to work, and dehydration transfer box assembly 5 can band
Dynamic extraction mud pipe component 1 works, and extraction mud pipe component 1 drives the anti-blocking component 2 of broken mud is synchronous with sludge head assembly 4 to carry out when working
Rotation work;The mud inside river can be extracted by extraction mud pipe component 1 first, in extraction process, passes through broken mud
Anti- blocking component 2 carries out broken agitation treatment appropriate to the mud extracted, is conducive to the extraction efficiency for improving mud
And preventing extraction mud pipe component 1 from blocking, the mud inside river is extracted out by extraction mud pipe component 1 and is delivered to dehydration by dredging tube 3
The inside of transfer box assembly 5, dehydration transfer box assembly 5 can carry out the mud extracted dehydration appropriate, mud into
After row dehydration, fall into the defeated mud band component 6 of 5 lower end of dehydration transfer box assembly, after defeated mud band component 6 is used for dehydration
Mud conveyed so that mud is directly disposed to bank, convenient for improve mud collection treatment effeciency.
Specific implementation mode two:
As shown in figs. 1-12, the extraction mud pipe component 1 includes extraction mud pipe ontology 1-1, pipe 1-2, into mud box 1-3, spiral
Body 1-4, rotary shaft 1-5, first pulley 1-6, the second belt wheel 1-7, third belt wheel 1-8, fixed plate 1-9 and limit annulus 1-10;
The upper end of the extraction mud pipe ontology 1-1 is connected through a screw thread pipe 1-2, and the top of pipe 1-2 is welded to connect and is connected into mud box
1-3;The rotary shaft 1-5 is from top to bottom sequentially passed through into mud box 1-3, pipe 1-2 and extraction mud pipe ontology 1-1, rotary shaft 1-5's
Upper and lower ends are rotatably assorted respectively to be connected on mud box 1-3 and on extraction mud pipe ontology 1-1;The upper end of the rotary shaft 1-5 by
The first pulley that is fixedly connected sequentially under 1-6 and third belt wheel 1-8, first pulley 1-6 and third belt wheel 1-8 setting are into mud
The upper end of case 1-3;The first pulley 1-6 connects the second belt wheel 1-7 by driving belt;The bottom end of the rotary shaft 1-5 is solid
Surely connection sludge head assembly 4, sludge head assembly 4 is arranged in the lower end of extraction mud pipe ontology 1-1;The fixed plate 1-9 is fixedly connected
Into on the sides mud box 1-3;The conveyor screw 1-4 clearance fits are connected to the inside of extraction mud pipe ontology 1-1, conveyor screw 1-4's
Centre is fixedly connected on rotary shaft 1-5;Two limit annulus 1- up and down are connected through a screw thread on the extraction mud pipe ontology 1-1
10;The lower end of the lateral surface of the extraction mud pipe ontology 1-1 is opened up into mud groove 1-1-1.The extraction mud pipe component 1 when in use,
Three belt wheel 1-8 are rotated under the drive of dehydration transfer box assembly 5, and third belt wheel 1-8 drives rotary shaft 1-5 and first pulley
1-6 is rotated, and rotary shaft 1-5 drives conveyor screw 1-4 to be rotated, and realizes the extraction to mud, by mud by into mud groove
1-1-1 is pumped into the inside of extraction mud pipe ontology 1-1, and by extraction mud pipe ontology 1-1 is delivered to pipe 1-2 and into mud box 1-3's
Inside, and by entering to dredging tube 3 into mud box 1-3, the inside of dehydration transfer box assembly 5 is then entered to by dredging tube 3,
First pulley 1-6 drives the second belt wheel 1-7 to be rotated, and the second belt wheel 1-7 drives the anti-blocking component of broken mud 2 to work;It is described
The lower end of rotary shaft 1-5 drives sludge head assembly 4 to be rotated, and sludge head assembly 4 carries out mud to bore tear reason, convenient for that will take out
Mud tube assembly 1 explores downward to the inside of mud, improves the extraction efficiency of mud.
Specific implementation mode three:
As shown in figs. 1-12, the anti-blocking component 2 of the broken mud includes gear shaft 2-1, transmission gear 2-2, external toothing 2-3, rotation
Pivoted housing pipe 2-4, annulus mounting bracket 2-5 and multiple anti-blocking agitating plate 2-6;The upper end of the gear shaft 2-1 is fixedly connected with the second band
1-7 is taken turns, the upper end of gear shaft 2-1 is connected to by the bearing block with bearing on fixed plate 1-9;Under the gear shaft 2-1
End is fixedly connected with transmission gear 2-2, and transmission gear 2-2 engagement connections external toothing 2-3, external toothing 2-3 are fixedly connected on rotary sleeve
On pipe 2-4, the lower end of revoling tube 2-4 is fixedly connected with annulus mounting bracket 2-5, and the bottom end of annulus mounting bracket 2-5 is uniformly fixed to be connected
Meet multiple anti-blocking agitating plate 2-6;The revoling tube 2-4 and annulus mounting bracket 2-5 are all rotatably assorted and are connected to extraction mud pipe ontology
On 1-1, a limit annulus 1-10 is fitted in the upper end of revoling tube 2-4, another limit annulus 1-10 is fitted in annulus peace
Shelve the lower end of 2-5.When in use, gear shaft 2-1 is turned the anti-blocking component of the broken mud 2 under the drive of the second belt wheel 1-7
Dynamic, gear shaft 2-1 bands nutating gear 2-2 is rotated, and transmission gear 2-2 drives external toothing 2-3 to be rotated, external toothing 2-
Revoling tube 2-4, annulus mounting bracket 2-5 and multiple anti-blocking agitating plate 2-6 is driven to be rotated when 3 rotation, by multiple anti-blocking
Agitating plate 2-6 can be effectively stirred to mud and break process, preferably extracts mud convenient for extraction mud pipe component 1, and prevent
Only extraction mud pipe component 1 blocks when in use.
The dredging tube 3 is a rectangular tube, and one end of dredging tube 3 is fixedly connected and is connected into mud box 1-3, dredging tube
3 other end is fixedly connected on dehydration transfer box assembly 5.
Specific implementation mode four:
As shown in figs. 1-12, the sludge head assembly 4 includes rotation frame plate 4-1, universal driving shaft 4-2 and multiple sludge pawl 4-3;
The top of the rotation frame plate 4-1 is welded to connect universal driving shaft 4-2;The upper end of the universal driving shaft 4-2 is connected by shaft coupling to rotate
Axis 1-5;The bottom end of the rotation frame plate 4-1 uniformly connects multiple sludge pawl 4-3 by screw.The sludge head assembly 4 makes
Used time, universal driving shaft 4-2 are rotated under the drive of rotary shaft 1-5, and universal driving shaft 4-2 drives rotation frame plate 4-1 and multiple sludges
Pawl 4-3 is rotated, and the excavation break process to mud is realized when multiple sludge pawl 4-3 are rotated so that extraction mud pipe component 1 more holds
The inside of mud is inserted under easily.
Specific implementation mode five:
As shown in figs. 1-12, the dehydration transfer box assembly 5 includes dewatering box ontology 5-1, rotation axis 5-2, support shaft 5-
3, rotation pipe 5-4, polylith dial mud plate 5-5, fall mud pipe 5-6, the 4th belt wheel 5-7 and the 5th belt wheel 5-8;The dewatering box ontology 5-
1 bottom end is fixedly connected with support shaft 5-3, and the bottom end of support shaft 5-3 is fixedly connected on installation frame plate 7;The rotation axis 5-2's
Bottom end is connected to by the bearing block with bearing on the bottom plate of dewatering box ontology 5-1;It is fixedly connected and turns on the rotation axis 5-2
Pipe 5-4 is moved, uniform welding polylith dials mud plate 5-5 on the lateral surface of rotation pipe 5-4;The upper end of the rotation axis 5-2 is from top to bottom
Be fixedly connected sequentially the 4th belt wheel 5-7 and the 5th belt wheel 5-8, and the 5th belt wheel 5-8 connects third belt wheel 1-8 by driving belt;
The defeated mud band component 6 of 4th belt wheel 5-7 connections;Around equipped with multiple drainage holes on the bottom plate of the dewatering box ontology 5-1
With a mud discharging mouth, the right end in the bottom plate for falling mud pipe 5-6 is arranged in mud discharging mouth, and the lower end of mud discharging mouth, which is connected to and in communication with, falls mud pipe 5-
6;The mud pipe 5-6 that falls is arranged in surface of the defeated mud with component 6;The right end of the dredging tube 3 is fixedly connected on dewatering box sheet
The top of body 5-1.When in use, the 4th belt wheel 5-7 is carried out the dehydration transfer box assembly 5 in the case where defeated mud is with the drive of component 6
Rotation, the 4th belt wheel 5-7 drive the 5th belt wheel 5-8 and rotation axis 5-2 to be rotated, and the 5th belt wheel 5-8 passes through driving belt band
Dynamic third belt wheel 1-8 is rotated;It drives rotation pipe 5-4 and polylith to dial mud plate 5-5 when the rotation axis 5-2 rotations to be turned
Dynamic, polylith is dialled mud plate 5-5 and is pushed to falling into the mud inside dewatering box ontology 5-1, and the river water inside mud passes through de-
Drainage hole outflow on the bottom plate of tank body 5-1, after mud is pushed into mud discharging mouth by group mud plate 5-5, by falling mud pipe 5-6
It falls into defeated mud band component 6, and is delivered to the bank in river with component 6 by defeated mud, be convenient for recycling.
Specific implementation mode six:
As shown in figs. 1-12, the defeated mud band component 6 includes the 6th belt wheel 6-1, transmission shaft 6-2, dynamic bevel gear 6-3, L
Shape seat board 6-4, drive bevel gear 6-5, the first roller shaft 6-6, active roll tube 6-7, passive roller 6-8, defeated mudcake band 6-9, roller
Bylinder 6-10, support plate 6-11, the second roller shaft 6-12, driving motor 6-13 and motor cabinet 6-14;The driving motor 6-13
It is connected to by motor cabinet 6-14 on the leading flank of roller frame 6-10;The output shaft of the driving motor 6-13 is connected by shaft coupling
The middle-end for meeting the first roller shaft 6-6, the first roller shaft 6-6 is rotatably assorted the rear and front end in the left side for being connected to roller frame 6-10,
Active roll tube 6-7 is fixedly connected on first roller shaft 6-6, active roll tube 6-7 is arranged in the inside of roller frame 6-10, the first roller
The rear end of axis 6-6 is fixedly connected with drive bevel gear 6-5, drive bevel gear 6-5 engagement connection dynamic bevel gear 6-3, by mantle tooth
Wheel 6-3 is fixedly connected on the lower end of transmission shaft 6-2, and the bottom end of transmission shaft 6-2, which is rotatably assorted, to be connected on L-shaped seat board 6-4, L-shaped
Seat board 6-4 is connected by screw in the rear end of roller frame 6-10;The upper end of the transmission shaft 6-2 is fixedly connected with the 6th belt wheel 6-1,
6th belt wheel 6-1 connects the 5th belt wheel 5-8 by driving belt;The lower end of the roller frame 6-10 is fixedly connected with two pieces of support plates
The bottom end of 6-11, support plate 6-11 are connected by screw on installation frame plate 7;The passive roller 6-8 is fixedly connected on second
On roller shaft 6-12, the rear and front end of the second roller shaft 6-12 is connected to roller frame 6-10 by the bearing block with bearing respectively
Right end, passive roller 6-8 passes through defeated mudcake band 6-9 connection active roll tubes 6-7.The defeated mud band component 6 when in use, drives
After motor 6-13 is connected to power supply and is opened by control switch, driving motor 6-13 drives the first roller shaft 6-6 to be rotated, the
Drive bevel gear 6-5 and active roll tube 6-7 is driven to be rotated when one roller shaft 6-6 rotations, band when drive bevel gear 6-5 is rotated
Dynamic dynamic bevel gear 6-3 is rotated, and whens dynamic bevel gear 6-3 rotations drives transmission shaft 6-2 rotations, and transmission shaft 6-2 drives the
Six belt wheel 6-1 rotations, the 6th belt wheel 6-1 drive the 5th belt wheel 5-8 to be rotated by driving belt;The active roll tube 6-7
Passive roller 6-8 is driven to be rotated by defeated mudcake band 6-9 when being rotated, defeated mudcake band 6-9 will be fallen when moving in defeated mud
Mud on belt 6-9 conveys outward, convenient for mud to be delivered to the bank recycling in river.
The distance between the bottom surface of described group of mud plate 5-5 and the bottom plate of dewatering box ontology 5-1 are not more than one centimetre;Described group
Mud plate 5-5 is equipped with dehydration slot.
The anti-blocking agitating plate 2-6 is arranged in the outer end into mud groove 1-1-1 of extraction mud pipe ontology 1-1.
A kind of riverway sludge collection device of the present invention, when in use, being first mounted on the installation frame plate 7 of the present invention can
On mechanical arm to carry out mobile mechanical equipment inside river, drive extraction mud pipe component 1 into river by mechanical arm
Portion is inserted into so that the anti-blocking component 2 of extraction mud pipe component 1, broken mud and sludge head assembly 4 are contacted with the mud inside river, then will
Defeated mud band component 6 is connected to power supply and is opened by controlling switch, and defeated mud band component 6 can drive dehydration transfer box assembly 5 to carry out
Work, dehydration transfer box assembly 5 can drive extraction mud pipe component 1 to work, and extraction mud pipe component 1 drives broken mud anti-blocking when working
The progress rotation work synchronous with sludge head assembly 4 of component 2;First by extraction mud pipe component 1 can to the mud inside river into
Row extracts, and in extraction process, is carried out at broken agitation appropriate to the mud extracted by the anti-blocking component of broken mud 2
Reason is conducive to improve the extraction efficiency of mud and prevents extraction mud pipe component 1 from blocking, and the mud inside river is by extraction mud pipe component 1
Extract and be delivered to by dredging tube 3 inside of dehydration transfer box assembly 5, the silt that dehydration transfer box assembly 5 can be to extracting out
Mud carries out dehydration appropriate, after mud is carried out dehydrating, falls into the defeated mud band component of 5 lower end of dehydration transfer box assembly
On 6, defeated mud band component 6 is for conveying dewatered mud so that mud is directly disposed to bank, becomes silted up convenient for improving
The collection treatment effeciency of mud;When in use, third belt wheel 1-8 is under the drive of dehydration transfer box assembly 5 for the extraction mud pipe component 1
It is rotated, third belt wheel 1-8 drives rotary shaft 1-5 and first pulley 1-6 to be rotated, and rotary shaft 1-5 drives conveyor screw 1-4
It is rotated, realizes the extraction to mud, by mud by being pumped into mud groove 1-1-1 to the inside of extraction mud pipe ontology 1-1, and lead to
It crosses extraction mud pipe ontology 1-1 and is delivered to pipe 1-2 and into the inside of mud box 1-3, and by entering to dredging tube 3 into mud box 1-3, so
The inside of dehydration transfer box assembly 5 is entered to by dredging tube 3 afterwards, first pulley 1-6 drives the second belt wheel 1-7 to be rotated,
Second belt wheel 1-7 drives the anti-blocking component of broken mud 2 to work;The lower end of the rotary shaft 1-5 drives 4 turns of sludge head assembly
Dynamic, sludge head assembly 4 carries out mud to bore tear reason, convenient for extraction mud pipe component 1 to be explored downward to the inside of mud, improves mud
Extraction efficiency;When in use, gear shaft 2-1 is rotated the anti-blocking component of the broken mud 2 under the drive of the second belt wheel 1-7, tooth
Wheel shaft 2-1 bands nutating gear 2-2 is rotated, and transmission gear 2-2 drives external toothing 2-3 to be rotated, external toothing 2-3 rotations
When drive revoling tube 2-4, annulus mounting bracket 2-5 and multiple anti-blocking agitating plate 2-6 to be rotated, pass through multiple anti-blocking agitating plates
2-6 can be effectively stirred to mud and break process, and mud is preferably extracted convenient for extraction mud pipe component 1, and prevents from taking out mud
Tube assembly 1 blocks when in use;When in use, the 4th belt wheel 5-7 is in band of the defeated mud with component 6 for the dehydration transfer box assembly 5
It is rotated under dynamic, the 4th belt wheel 5-7 drives the 5th belt wheel 5-8 and rotation axis 5-2 to be rotated, and the 5th belt wheel 5-8 passes through biography
Dynamic belt drives third belt wheel 1-8 to be rotated;Rotation pipe 5-4 and polylith is driven to dial mud plate 5-5 when the rotation axis 5-2 rotations
It is rotated, polylith is dialled mud plate 5-5 and pushed to falling into the mud inside dewatering box ontology 5-1, the river water inside mud
By the drainage hole outflow on the bottom plate of dewatering box ontology 5-1, after mud is pushed into mud discharging mouth by group mud plate 5-5, by falling
Mud pipe 5-6 is fallen into defeated mud band component 6, and is delivered to the bank in river with component 6 by defeated mud, is convenient for recycling.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made in the essential scope of the present invention also belong to the guarantor of the present invention
Protect range.
Claims (9)
1. riverway sludge collection device, including extraction mud pipe component (1), the anti-blocking component of broken mud (2), dredging tube (3), sludge head assembly
(4), dehydration transfer box assembly (5), defeated mud band component (6) and installation frame plate (7), it is characterised in that:The extraction mud pipe component (1)
Bottom end connection sludge head assembly (4);The lower end of the lateral surface of the extraction mud pipe component (1) connects the broken anti-blocking component of mud (2), broken
The anti-blocking component of mud (2) is arranged in the upper end of sludge head assembly (4);The upper end of the extraction mud pipe component (1) is connected to and in communication with defeated mud
The one end of (3) is managed, the other end of dredging tube (3) is fixedly connected on the upper end of dehydration transfer box assembly (5);The extraction mud pipe component
(1) connection dehydration transfer box assembly (5);The dehydration transfer box assembly (5) connects defeated mud band component (6), defeated mud band component (6)
It is arranged in the lower end of dehydration transfer box assembly (5);The bottom of bottom end and defeated mud with component (6) of the dehydration transfer box assembly (5)
End is all fixedly connected on installation frame plate (7).
2. riverway sludge collection device according to claim 1, it is characterised in that:The extraction mud pipe component (1) includes taking out
Mud tube body (1-1), pipe (1-2), into mud box (1-3), conveyor screw (1-4), rotary shaft (1-5), first pulley (1-6),
Two belt wheels (1-7), third belt wheel (1-8), fixed plate (1-9) and limit annulus (1-10);The extraction mud pipe ontology (1-1) it is upper
End is connected through a screw thread pipe (1-2), and the top of pipe (1-2) is welded to connect and is connected into mud box (1-3);The rotary shaft
(1-5) is from top to bottom sequentially passed through into mud box (1-3), pipe (1-2) and extraction mud pipe ontology (1-1), rotary shaft (1-5) up and down
Both ends are rotatably assorted respectively to be connected on mud box (1-3) and on extraction mud pipe ontology (1-1);The upper end of the rotary shaft (1-5)
The first pulley that is from top to bottom fixedly connected sequentially (1-6) and third belt wheel (1-8), first pulley (1-6) and third belt wheel (1-8)
It is arranged in the upper end into mud box (1-3);The first pulley (1-6) connects the second belt wheel (1-7) by driving belt;The rotation
The bottom end of shaft (1-5) is fixedly connected with sludge head assembly (4), and sludge head assembly (4) is arranged under extraction mud pipe ontology (1-1)
End;The fixed plate (1-9) is fixedly connected on the side mud box (1-3);Conveyor screw (1-4) clearance fit is connected to pumping
The centre of the inside of mud tube body (1-1), conveyor screw (1-4) is fixedly connected in rotary shaft (1-5);The extraction mud pipe ontology
Two limit annulus (1-10) up and down are connected through a screw thread on (1-1);It opens the lower end of the lateral surface of the extraction mud pipe ontology (1-1)
If into mud groove (1-1-1).
3. riverway sludge collection device according to claim 2, it is characterised in that:The anti-blocking component of broken mud (2) includes
Gear shaft (2-1), transmission gear (2-2), external toothing (2-3), revoling tube (2-4), annulus mounting bracket (2-5) and multiple anti-blocking
Agitating plate (2-6);The upper end of the gear shaft (2-1) is fixedly connected with the second belt wheel (1-7), and the upper end of gear shaft (2-1) passes through
Bearing block with bearing is connected in fixed plate (1-9);The lower end of the gear shaft (2-1) is fixedly connected with transmission gear (2-
2), transmission gear (2-2) engagement connection external toothing (2-3), external toothing (2-3) are fixedly connected on revoling tube (2-4), are rotated
The lower end of casing (2-4) is fixedly connected with annulus mounting bracket (2-5), and the bottom end of annulus mounting bracket (2-5) is uniformly fixedly connected multiple
Anti-blocking agitating plate (2-6);The revoling tube (2-4) and annulus mounting bracket (2-5) are all rotatably assorted and are connected to extraction mud pipe ontology
On (1-1), a limit annulus (1-10) is fitted in the upper end of revoling tube (2-4), another limit annulus (1-10) is bonded
In the lower end of annulus mounting bracket (2-5).
4. riverway sludge collection device according to claim 3, it is characterised in that:The dredging tube (3) is a rectangle
One end of tube body, dredging tube (3) is fixedly connected and is connected into mud box (1-3), and the other end of dredging tube (3) is fixedly connected on dehydration
On transfer box assembly (5).
5. riverway sludge collection device according to claim 2, it is characterised in that:The sludge head assembly (4) includes turning
Moving frame plate (4-1), universal driving shaft (4-2) and multiple sludge pawls (4-3);The top of the rotation frame plate (4-1) is welded to connect linkage
Axis (4-2);The upper end of the universal driving shaft (4-2) connects rotary shaft (1-5) by shaft coupling;The bottom of the rotation frame plate (4-1)
End uniformly connects multiple sludge pawls (4-3) by screw.
6. riverway sludge collection device according to claim 4, it is characterised in that:Dehydration transfer box assembly (5) packet
Dewatering box ontology (5-1), rotation axis (5-2), support shaft (5-3), rotation pipe (5-4), polylith is included to dial mud plate (5-5), fall mud pipe
(5-6), the 4th belt wheel (5-7) and the 5th belt wheel (5-8);The bottom end of the dewatering box ontology (5-1) is fixedly connected with support shaft (5-
3), the bottom end of support shaft (5-3) is fixedly connected on installation frame plate (7);The bottom end of the rotation axis (5-2) is by carrying bearing
Bearing block be connected on the bottom plate of dewatering box ontology (5-1);It is fixedly connected with rotation pipe (5-4) on the rotation axis (5-2), is turned
Uniform welding polylith dials mud plate (5-5) on the lateral surface of dynamic pipe (5-4);The upper end of the rotation axis (5-2) is from top to bottom successively
It is fixedly connected with the 4th belt wheel (5-7) and the 5th belt wheel (5-8), the 5th belt wheel (5-8) connects third belt wheel (1- by driving belt
8);4th belt wheel (5-7) connects defeated mud band component (6);It is multiple around being equipped on the bottom plate of the dewatering box ontology (5-1)
The right end in the bottom plate for falling mud pipe (5-6) is arranged in drainage hole and a mud discharging mouth, mud discharging mouth, and the lower end of mud discharging mouth connects and connects
It is logical to fall mud pipe (5-6);The mud pipe (5-6) that falls is arranged in surface of the defeated mud with component (6);The right end of the dredging tube (3)
It is fixedly connected on the top of dewatering box ontology (5-1).
7. riverway sludge collection device according to claim 6, it is characterised in that:The defeated mud band component (6) includes the
Six belt wheels (6-1), transmission shaft (6-2), dynamic bevel gear (6-3), L-shaped seat board (6-4), drive bevel gear (6-5), the first roller
Axis (6-6), active roll tube (6-7), passive roller (6-8), defeated mudcake band (6-9), roller frame (6-10), support plate (6-11),
Second roller shaft (6-12), driving motor (6-13) and motor cabinet (6-14);The driving motor (6-13) passes through motor cabinet (6-
14) it is connected on the leading flank of roller frame (6-10);The output shaft of the driving motor (6-13) connects first by shaft coupling
Roller shaft (6-6), the middle-end of the first roller shaft (6-6) are rotatably assorted the rear and front end in the left side for being connected to roller frame (6-10),
Active roll tube (6-7) is fixedly connected on first roller shaft (6-6), active roll tube (6-7) is arranged in the inside of roller frame (6-10),
The rear end of first roller shaft (6-6) is fixedly connected with drive bevel gear (6-5), and drive bevel gear (6-5) engagement connection is by mantle tooth
It takes turns (6-3), dynamic bevel gear (6-3) is fixedly connected on the lower end of transmission shaft (6-2), and the bottom end of transmission shaft (6-2) is rotatably assorted
It is connected on L-shaped seat board (6-4), L-shaped seat board (6-4) is connected by screw in the rear end of roller frame (6-10);The transmission shaft
The upper end of (6-2) is fixedly connected with the 6th belt wheel (6-1), and the 6th belt wheel (6-1) connects the 5th belt wheel (5-8) by driving belt;
The lower end of the roller frame (6-10) is fixedly connected with two pieces of support plates (6-11), and the bottom end of support plate (6-11) is connected by screw
On installation frame plate (7);The passive roller (6-8) is fixedly connected on the second roller shaft (6-12), the second roller shaft (6-
12) rear and front end is connected to the right end of roller frame (6-10) by the bearing block with bearing respectively, and passive roller (6-8) is logical
Cross defeated mudcake band (6-9) connection active roll tube (6-7).
8. riverway sludge collection device according to claim 6, it is characterised in that:The bottom surface of described group of mud plate (5-5) with
The distance between bottom plate of dewatering box ontology (5-1) is not more than one centimetre;Described group of mud plate (5-5) is equipped with dehydration slot.
9. riverway sludge collection device according to claim 3, it is characterised in that:Anti-blocking agitating plate (2-6) setting
In the outer end into mud groove (1-1-1) of extraction mud pipe ontology (1-1).
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Cited By (7)
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CN109056876A (en) * | 2018-09-07 | 2018-12-21 | 黑龙江兰德超声科技股份有限公司 | Riverway sludge collection device |
CN109487768A (en) * | 2018-10-23 | 2019-03-19 | 王雨秋 | A kind of marine float garbage cleaning device |
CN109577408A (en) * | 2019-01-04 | 2019-04-05 | 陆炯 | A kind of soil pick-up equipment and its soil pick-up operational method for clearing up river sludge |
CN110397102A (en) * | 2019-08-06 | 2019-11-01 | 中国水利水电科学研究院 | A kind of hydraulic engineering row's silt device |
CN110670656A (en) * | 2019-10-09 | 2020-01-10 | 潘显敏 | Slurry sucking and conveying method for river treatment |
CN113187012A (en) * | 2021-06-10 | 2021-07-30 | 王翠云 | Dry-wet separation device for aquaculture dredging vehicle |
CN113374016A (en) * | 2021-07-27 | 2021-09-10 | 毅康科技有限公司 | Mud conveying and landing device and method for river channel dredging |
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CN113187012A (en) * | 2021-06-10 | 2021-07-30 | 王翠云 | Dry-wet separation device for aquaculture dredging vehicle |
CN113374016A (en) * | 2021-07-27 | 2021-09-10 | 毅康科技有限公司 | Mud conveying and landing device and method for river channel dredging |
CN113374016B (en) * | 2021-07-27 | 2023-12-12 | 毅康科技有限公司 | Mud conveying and landing device and method for river dredging |
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