CN216689726U - Pipeline dried sludge cleaning and dredging robot - Google Patents

Pipeline dried sludge cleaning and dredging robot Download PDF

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Publication number
CN216689726U
CN216689726U CN202123098150.5U CN202123098150U CN216689726U CN 216689726 U CN216689726 U CN 216689726U CN 202123098150 U CN202123098150 U CN 202123098150U CN 216689726 U CN216689726 U CN 216689726U
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China
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frame
dredging
pipeline
milling
robot
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CN202123098150.5U
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Chinese (zh)
Inventor
李银
王增义
周开锋
杨超
赵东方
闫睿
王欢欢
杨光
曾新宇
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Beijing Drainage Group Co Ltd
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Beijing Drainage Group Co Ltd
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Abstract

The utility model discloses a robot for cleaning and dredging dried sludge in a pipeline, which relates to the field of urban drainage equipment and comprises: a frame; the milling and crushing mechanism is arranged at the front part of the rack and comprises a driving wheel and a plurality of dredging ends; the sludge collecting mechanism is arranged on the frame, and an opening of the sludge collecting mechanism faces the milling and crushing mechanism; the lighting observation mechanism is hinged with the rear part of the frame; the traveling mechanism is arranged on the lower side of the frame; the electric control mechanism is in control connection with the milling and crushing mechanism, the walking mechanism and the illumination observation mechanism; this robot carries out the breakage with the sludge that dries out and ties and raises it into silt collection mechanism through milling the broken mechanism of plane, and illumination observation mechanism monitors the desilting process at the frame rear portion to because illumination observation mechanism is connected for articulated with the workshop, can adjust the height of this robot, guarantee that this robot passes through the inspection well head smoothly, reduce the danger of desilting work, improve work efficiency.

Description

Pipeline dried sludge cleaning and dredging robot
Technical Field
The utility model belongs to the field of urban drainage equipment, and particularly relates to a pipeline dried sludge cleaning and dredging robot.
Background
In China, drainage pipelines are distributed at all corners of the underground of a city, and the safe operation of the city is guaranteed at every moment, but because resident household garbage, urban street dust, capital construction site slurry and the like are precipitated in a rainwater pipeline, the pipeline is blocked due to excessive deposition, the daily life of residents is influenced slightly, and the normal life rhythm of the whole city is disturbed seriously, so that the urban underground drainage pipelines must be cleaned and dredged in time. The pipelines of the drainage system are distributed all over the underground of the city, the crossing is longitudinal and complex, the pipelines dry in dry seasons, and the city is possibly waterlogged due to strong rainfall in rainy seasons.
At present, the existing dredging methods for drainage pipelines in China mainly comprise four methods, and a plurality of small-range research dredging methods are parallel. Among them, the winch dredging method is the most commonly used method for dredging pipelines, and the high-pressure water jet is the dredging method with the best cleaning effect, but they have certain disadvantages, and several dredging methods are introduced below.
(1) Sludge cleaning method for pipeline excavation construction
The construction of the excavation pipeline mainly adopts the matching of excavator operation and manual operation, and under the condition of complex working conditions, the manual operation is sometimes adopted in the whole course, and then the dredging operation is carried out on the sewer pipeline exposed out of the ground. The dredging method has the advantages of high investment, long construction period, low efficiency, large requirement on construction site, much dust and large noise, greatly influences the surrounding environment, and causes great interference and damage to the traffic conditions and the environmental conditions of urban areas.
(2) Manual well dredging method
At present, most rainwater pipelines in cities are dredged by manual work and are put into a well. The manual dredging method is that dredging operators enter the inside of the drainage pipeline and utilize a dredging tool to convey the inside of the sludge drainage pipeline to an inspection wellhead. Because narrow and small and sealed in the pipeline, the direct clearance dried sludge can produce a large amount of dust and have certain harm to the human body, so can pour water into earlier the rainwater pipeline under the general condition and make the dried sludge in the pipeline soften, do benefit to the clearance. Then the sludge in the rainwater pipeline is conveyed to the wellhead by manpower.
The efficiency of manual work mediation is slow, and the pipeline internal environment is very abominable, has inflammable and explosive toxic gas, and staff's safety can't obtain the guarantee.
(3) High-pressure water jet sludge cleaning method
The high-pressure water jet is a relatively efficient pipeline dredging mode, but the high-pressure water jet is only suitable for a drainage pipeline with the diameter less than 1000mm and is not suitable for a drainage pipeline with the diameter more than 1000 mm. A high-pressure jet car is composed of large water tank, motor-driven pipe winder, high-pressure water pump and water jet nozzle. In operation, water is pressurized by a high-pressure water pump driven by an in-vehicle engine and then delivered to a water jet head. Because the nozzle opening faces backwards, the ejected water flow can generate extremely strong reaction force, so that the water ejection nozzle and the rubber tube move forwards, and the effect of cleaning the tube wall is achieved. When the spray head is pushed to the downstream inspection well, the hose can be withdrawn after the dredging of the pipeline is finished. The sludge is also washed into a downstream inspection well by high-pressure water flow and is sucked away by a suction truck on the ground. However, this method requires a large volume of water, and the essentially clean potable water currently used, makes dredging quite costly.
(4) Hydraulic sludge cleaning method
The hydraulic dredging method is a method for dredging the pipeline by increasing the water head difference between the upstream and the downstream of the pipe canal and increasing the flow velocity. Firstly, the sewage in the pipeline is blocked at the upstream of the pipeline by using a water blocking device, and when the water level is accumulated to a certain height, the dredging device is removed, so that the upstream water forms an impulsive water flow to flush the sediment in the pipeline. Once enough sediment is washed away, the device is moved down a distance where the dredging is repeated. The method needs a certain stable sewage flow of the drainage pipeline, the sludge in the pipeline cannot be excessive and too firm, otherwise, the water scouring force is not enough to clear the sludge. And when the sewage is blocked, the sewage at the upstream can not flow away from other routes, and the upstream water can not flow back to the ground or nearby buildings, so that the working range of the upstream water is greatly limited. Meanwhile, for the drainage pipeline of the current city, except for a few pipelines close to the pump station, the water flow in most pipelines can not reach the flow velocity, so that the hydraulic dredging of the pipeline can not be carried out.
(5) Other methods of dredging
The suction-type sewage treatment vehicle is widely used abroad, such as a sewage suction vehicle produced by a certain German company, the vehicle uses atmospheric pressure to suck sundries deposited in a pipeline, but if the depth of the pipeline is more than ten meters, the atmospheric pressure value is difficult to generate pressure reaching the working requirement. Other devices also comprise high-pressure water dredging equipment, robots with various complicated mechanisms, flexible shaft dredging equipment and the like, and the device has the advantages of high cost, single function and easy limitation of work.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects in the prior art, and provides a pipeline dried sludge cleaning and dredging robot, wherein a milling and crushing mechanism is arranged at the front part of a frame of the robot, dried sludge in a pipeline is crushed and is lifted into a sludge collecting mechanism, an illumination observation mechanism monitors the dredging process at the rear part of the frame, and when the robot is lifted into the pipeline, the height of the robot can be adjusted due to the fact that the illumination observation mechanism is hinged with a workshop, the robot is guaranteed to pass through an inspection well mouth smoothly, the risk of dredging work is reduced, and the work efficiency is improved.
In order to achieve the above object, the present invention provides a robot for cleaning and dredging dried sludge in a pipeline, comprising:
a frame;
the milling and crushing mechanism is arranged at the front part of the frame and comprises a driving wheel and a plurality of dredging ends, and the plurality of dredging ends are arranged at the periphery of the driving wheel;
the sludge collecting mechanism is arranged on the frame, and an opening of the sludge collecting mechanism faces the milling and crushing mechanism;
the lighting observation mechanism is hinged with the rear part of the frame;
the traveling mechanism is arranged on the lower side of the frame;
and the electric control mechanism is in control connection with the milling and crushing mechanism, the travelling mechanism and the illumination observation mechanism.
Optionally, the vehicle body further comprises a first support and a second support, a motor is arranged at one end of the first support, the output end of the motor is in driving connection with the driving wheel, the other end of the first support is connected with one end of the second support, the middle of the second support is hinged to the front portion of the vehicle frame, a first lifting motor is arranged in the middle of the vehicle frame, and the output end of the first lifting motor is in driving connection with the other end of the second support.
Optionally, a plurality of L-shaped brackets are uniformly arranged on the periphery of the driving wheel, and the L-shaped brackets are connected with the dredging end.
Optionally, the dredging end comprises a plurality of nylon rods, the nylon rods are arranged along the axial direction of the driving wheel, and the outer ends of the nylon rods form an arc shape matched with the radius of the pipeline in the axial direction of the driving wheel.
Optionally, the sludge collection mechanism comprises:
the collecting bag is arranged on the frame, and the opening end of the collecting bag faces the milling and crushing mechanism;
the upper mud guard is in an inverted U shape, and the periphery of the upper mud guard is connected with the upper part of the opening end of the collecting bag;
the two side mud guards are arranged at the lower part of the opening end of the collecting bag, are connected with the side wall of the upper mud guard, and are connected with the frame through a guard bracket;
and the two ends of the shovel plate are respectively connected with the bottoms of the side mud guards.
Optionally, the illuminated viewing mechanism comprises:
the tail support is hinged with the rear part of the frame;
the LED lamp and the camera are arranged at the top of the tail support;
and the output end of the second lifting motor is in driving connection with the bottom of the tail support.
Optionally, the electric control mechanism comprises:
a battery disposed on the frame;
the electronic control box is arranged at the rear part of the sludge collecting mechanism, the battery is connected with the electronic control box, and the electronic control box is in control connection with the milling and crushing mechanism, the travelling mechanism and the illumination observation mechanism.
Optionally, a detachable battery cover and a battery baffle are arranged outside the battery.
Optionally, the running gear comprises:
the belt nail wheels are arranged on two sides of the frame;
one end of the L-shaped connecting plate is connected with the frame, the other end of the L-shaped connecting plate is connected with the wheel with the nails through the wheel legs, and the L-shaped connecting plates on the two sides are arranged on the frame in an inner splayed shape.
Optionally, a direct current motor is arranged in the wheel leg, an output end of the direct current motor is in transmission connection with the nail-carrying wheel through a bevel gear, and epoxy resin pouring sealant is filled in the wheel leg.
The utility model provides a robot for cleaning and dredging dried sludge in a pipeline, which has the beneficial effects that: this robot replaces the staff to go into the pit and carries out the cleaning work of the siltation silt of drying and caking in the rainwater pipeline, through milling the broken mechanism of plane, increases crushing ability to make siltation silt raise into silt collection mechanism through the rotation of drive wheel, accomplish the ability of collecting silt, provide better means for the pipeline cleaning construction.
Additional features and advantages of the utility model will be set forth in the detailed description which follows.
Drawings
The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts throughout.
Fig. 1 shows a schematic structural diagram of a pipeline dry-out sludge cleaning and dredging robot according to one embodiment of the utility model.
Fig. 2 shows a left side view of fig. 1.
FIG. 3 shows a schematic view of the connection of a spiked wheel to an L-shaped web according to one embodiment of the utility model.
Fig. 4 shows a state diagram of a pipeline dried sludge cleaning and dredging robot in a hoisting state according to an embodiment of the utility model.
Fig. 5 shows a state diagram of a pipeline dry sludge cleaning and dredging robot when a rainwater pipeline is cleaned according to one embodiment of the utility model.
Description of reference numerals:
1. a frame; 2. a driving wheel; 3. dredging end; 4. a first bracket; 5. a second bracket; 6. a motor; 7. a first lift motor; 8. an L-shaped bracket; 9. a collection bag; 10. a mud guard is arranged; 11. a side fender; 12. a baffle bracket; 13. a shovel plate; 14. a tail support; 15. an LED lamp; 16. a camera; 17. a second lift motor; 18. a battery; 19. an electronic control box; 20. a battery cover; 21. a battery baffle; 22. a wheel with nails; 23. an L-shaped connecting plate; 24. a direct current motor; 25. a bevel gear.
Detailed Description
Preferred embodiments of the present invention will be described in more detail below. While the following describes preferred embodiments of the present invention, it should be understood that the present invention may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.
The utility model provides a robot for cleaning and dredging dried sludge in a pipeline, which comprises:
a frame;
the milling and crushing mechanism is arranged at the front part of the frame and comprises a driving wheel and a plurality of dredging ends, and the plurality of dredging ends are arranged at the periphery of the driving wheel;
the sludge collecting mechanism is arranged on the frame, and an opening of the sludge collecting mechanism faces the milling and crushing mechanism;
the lighting observation mechanism is hinged with the rear part of the frame;
the traveling mechanism is arranged on the lower side of the frame;
and the electric control mechanism is in control connection with the milling and crushing mechanism, the walking mechanism and the illumination observation mechanism.
Specifically, the robot comprises a milling and crushing mechanism, a sludge collecting mechanism and an illumination observing mechanism, wherein the milling and crushing mechanism is arranged at the front part of a frame, a dredging end is driven by the rotation of a driving wheel to crush dried sludge on the wall of a rainwater pipeline, the crushed sludge is lifted into the sludge collecting mechanism by the rotation of the driving wheel, the illumination observing mechanism is arranged at the rear part of the frame, images are collected in the whole dredging process and transmitted to workers, the electric control mechanism adjusts the positions of the milling and crushing mechanism and the illumination observing mechanism according to the collected images and sends instructions to a walking mechanism at the same time, and the smooth dredging operation of the robot in the rainwater pipeline is ensured; in addition, the illumination observation mechanism is arranged at the rear part of the frame, the illumination observation mechanism needs to collect all the desilting processes of the front part of the frame, the position of the illumination observation mechanism has a certain height, when the robot is hoisted into a rainwater pipeline, the illumination observation mechanism is hinged with the frame, the height position of the illumination observation mechanism can be adjusted, and the robot is guaranteed to smoothly enter an inspection wellhead for desilting work.
Optionally, the vehicle body support further comprises a first support and a second support, a motor is arranged at one end of the first support, the output end of the motor is in driving connection with a driving wheel, the other end of the first support is connected with one end of the second support, the middle of the second support is hinged to the front portion of the vehicle frame, a first lifting motor is arranged at the middle of the vehicle frame, and the output end of the first lifting motor is in driving connection with the other end of the second support.
Specifically, be provided with first support and second support on the frame, the rear portion of first support is connected with the front portion between the second, the front portion of first support is connected through the centre of a circle of motor and drive wheel, the drive wheel is rotated in the drive, the second support uses its middle part as the support, the output through first elevator motor comes the height position at control adjustment second support rear portion along vertical direction concertina movement, control the height of second support and first support junction through lever principle, make the second support drive first support come the height of adjustment drive wheel, can make like this mill the wall distance of milling crushing mechanism and rainwater pipeline control, improve the effect of milling the broken silt of crushing mechanism.
Optionally, the periphery of the driving wheel is uniformly provided with a plurality of L-shaped supports, and the L-shaped supports are connected with the dredging end.
Specifically, be provided with a plurality of L shape supports in the periphery of drive wheel, the one end of keeping away from the drive wheel at L shape support is connected with the desilting end, when the drive wheel rotates clockwise, can drive the desilting end and carry out the breakage with the dry and hard silt on the wall to the inboard clockwise rotation direction of drive wheel of L shape support, the desilting end just can be like this with broken silt advantage of raising into the silt collection mechanism of rear, realize automatic desilting work.
Optionally, the dredging end comprises a plurality of nylon rods, the nylon rods are arranged along the axial direction of the driving wheel, and the outer ends of the nylon rods form an arc shape matched with the radius of the pipeline in the axial direction of the driving wheel.
It is concrete, the desilting end adopts stereoplasm nylon stick, the desilting end can satisfy the intensity of broken silt like this, adopt anchor clamps to press from both sides the mode of dress on every L shape support, arrange into one row along the circumference direction of drive wheel with a plurality of nylon sticks, the height of the nylon stick in a row reduces to both ends from the middle part gradually in addition, the outer end of nylon stick in a row forms arc, can make the nylon stick in a row laminate with the wall of pipeline mutually like this, also can improve the work efficiency who mills and plane broken mechanism simultaneously, can avoid causing the damage of pipeline inner wall again.
Optionally, the sludge collection mechanism comprises:
the collecting bag is arranged on the frame, and the opening end of the collecting bag faces the milling and crushing mechanism;
the upper mud guard is in an inverted U shape, and the periphery of the upper mud guard is connected with the upper part of the opening end of the collecting bag;
the two side mud guards are arranged at the lower part of the opening end of the collecting bag, are connected with the side walls of the upper mud guards, and are connected with the frame through the baffle bracket;
and two ends of the shovel plate are respectively connected with the bottom of the side mudguard.
Specifically, among the silt collection mechanism, collect the bag setting on the frame, collect the open end orientation of bag and mill the crushing mechanism of plane, can make like this mill the crushing mechanism of plane and raise broken dry and knot silt into the collection bag, be provided with fender, shovel board and two side mudguard respectively on the open end of collecting the bag, can make the dry and knot silt of raising fall into the structure of enclosing of a plurality of baffles like this, get into under the water conservancy diversion and collect in the bag.
Optionally, the illuminated viewing mechanism comprises:
the tail bracket is hinged with the rear part of the frame;
the LED lamp and the camera are arranged at the top of the tail support;
and the second lifting motor is arranged at the bottom of the frame, and the output end of the second lifting motor is in driving connection with the bottom of the tail support.
Specifically, in the illumination observation mechanism, the tail support takes a hinged joint at the middle part of the tail support as a fulcrum, the bottom end of the tail support is controlled by a second lifting motor, the output end of the second lifting motor moves in a telescopic manner along the horizontal direction to drive the bottom end of the tail support to swing, and the height of the top of the tail support can be adjusted at will by a lever principle, so that the overall height of the robot is reduced to adapt to different pipe diameters in a drainage pipeline; the LED lamp and the camera are arranged at the top of the tail support, the camera adopts a camera with high definition, and the whole working state of the robot can be clearly monitored.
Optionally, the electronic control mechanism comprises:
the battery is arranged on the frame;
the electronic control box is arranged at the rear part of the sludge collecting mechanism, the battery is connected with the electronic control box, and the electronic control box is in control connection with the milling and crushing mechanism, the walking mechanism and the illumination observation mechanism.
Specifically, in the electric control mechanism, the battery is arranged behind the collecting bag and is connected with the electric control box to provide power for the whole robot, the electric control box is electrically connected with the first lifting motor and the second lifting motor, after a monitoring image of the illumination observation mechanism is obtained, the height of the sludge collecting mechanism is adjusted through the first lifting motor, and the clear dried sludge in the rainwater pipeline with the maximum efficiency at the sludge removing end is ensured; in addition, in the process of hoisting the inspection wellhead of the robot, the tail support is adjusted through the second lifting motor, so that the height of the robot is suitable for the height of the wellhead.
Optionally, a detachable battery cover and a battery baffle are arranged outside the battery.
Specifically, a battery cover and a battery baffle are arranged outside the battery, the battery cover and the battery baffle protect the battery and prevent dry sludge from damaging the battery, and the battery cover and the battery baffle are in screw connection with the frame, so that the battery cover and the battery baffle can be detached at any time and the battery is convenient to charge.
Optionally, the walking mechanism comprises:
the belt nail wheels are arranged on two sides of the frame;
one end of the L-shaped connecting plate is connected with the frame, the other end of the L-shaped connecting plate is connected with the wheel with the nail through the wheel leg, and the L-shaped connecting plates on the two sides are arranged on the frame in a splayed shape.
Specifically, the both sides of frame are provided with the wheel of taking the nail, and the wheel of taking the nail adopts L shape connecting plate to be connected with the frame, and the long limit one end of L shape connecting plate is connected with the side of frame, and the L shape connecting plate of both sides forms the splayed structure, makes the wheel of taking the nail can with rainwater pipeline's pipe wall stationary contact like this, makes the robot can the steady movement.
Optionally, a direct current motor is arranged in the wheel leg, the output end of the direct current motor is in transmission connection with the nail-carrying wheel through a bevel gear, and epoxy resin pouring sealant is filled in the wheel leg.
The utility model discloses a take the nail wheel to fix through the wheel leg, is provided with DC motor in the wheel leg, and DC motor's output and take the nail wheel to carry out the transmission through bevel gear, guarantee to take the nail wheel can normal rotation to the epoxy casting glue is filled in the wheel leg, and it causes DC motor to damage to intake when avoiding the robot to remove in drainage pipe.
Examples
As shown in fig. 1 to 5, the present invention provides a robot for cleaning and dredging dried sludge in a pipeline, comprising:
a frame 1;
the milling and crushing mechanism is arranged at the front part of the frame 1 and comprises a driving wheel 2 and a plurality of dredging ends 3, and the plurality of dredging ends 3 are arranged at the periphery of the driving wheel 2;
the sludge collecting mechanism is arranged on the frame 1, and an opening of the sludge collecting mechanism faces the milling and crushing mechanism;
the lighting observation mechanism is hinged with the rear part of the frame 1;
the traveling mechanism is arranged on the lower side of the frame;
and the electric control mechanism is in control connection with the milling and crushing mechanism, the walking mechanism and the illumination observation mechanism.
In this embodiment, still include first support 4 and second support 5, the one end of first support 4 is provided with motor 6, and the output of motor 6 is connected with the drive wheel 2 drive, and the other end of first support 4 is connected with the one end of second support 5, and the middle part of second support 5 is articulated with the front portion of frame 1, and the middle part of frame 1 is provided with first elevator motor 7, and the output of first elevator motor 7 is connected with the other end drive of second support 5.
In this embodiment, a plurality of L-shaped brackets 8 are uniformly arranged on the periphery of the driving wheel 2, and the L-shaped brackets 8 are connected with the dredging end.
In this embodiment, the dredging end 3 comprises a plurality of nylon rods, the plurality of nylon rods are arranged along the axial direction of the driving wheel 2, and the outer ends of the plurality of nylon rods form a circular arc shape matched with the radius of the pipeline in the axial direction of the driving wheel 2.
In this embodiment, the sludge collecting mechanism includes:
the collecting bag 9 is arranged on the frame 1, and the opening end of the collecting bag 9 faces the milling and crushing mechanism;
the upper mudguard 10, the upper mudguard 10 takes the shape of an inverted U, the periphery of the upper mudguard 10 is connected with the upper part of the opening end of the collecting bag 9;
two side mud guards 11 arranged at the lower part of the opening end of the collecting bag 9, wherein the two side mud guards 11 are connected with the side wall of the upper mud guard 10, and the outer wall of the side mud guard 11 is connected with the frame 1 through a guard bracket 12;
and a shovel 13, both ends of the shovel 13 being connected to the bottom of the side fender 11.
In the present embodiment, the illumination observation mechanism includes:
the tail bracket 14, the tail bracket 14 is hinged with the rear part of the frame 1;
the LED lamp 15 and the camera 16 are arranged at the top of the tail support 14;
and the second lifting motor 17 is arranged at the bottom of the frame 1, and the output end of the second lifting motor 17 is in driving connection with the bottom of the tail support 14.
In this embodiment, the electric control mechanism includes:
a battery 18 disposed on the frame 1;
the electronic control box 19 is arranged at the rear part of the sludge collecting mechanism, the battery 18 is connected with the electronic control box 19, and the electronic control box 19 is in control connection with the milling and crushing mechanism, the walking mechanism and the illumination observation mechanism.
In this embodiment, a detachable battery cover 20 and a battery shutter 21 are provided outside the battery 18.
In this embodiment, the traveling mechanism includes:
the belt nail wheels 22 are arranged on two sides of the frame 1;
one end of the L-shaped connecting plate 23 is connected with the frame 1, the other end of the L-shaped connecting plate 23 is connected with the wheel with nails 22 through the wheel legs, and the L-shaped connecting plates 23 on the two sides are arranged on the frame 1 in a splayed shape.
In the embodiment, a direct current motor 24 is arranged in the wheel leg, the output end of the direct current motor 24 is in transmission connection with the wheel with the nail 22 through a bevel gear 25, and epoxy resin pouring sealant is filled in the wheel leg.
In conclusion, when the robot enters the inspection wellhead, the robot is hoisted through an iron cable, and the height of the tail support is reduced under the driving of the second lifting motor, so that the robot can smoothly pass through the inspection wellhead; when the milling and crushing mechanism descends to the bottommost part, the milling and crushing mechanism firstly lands, and the driving wheel 2 can freely rotate when the motor 6 is electrified, so that the driving wheel 2 drives the robot to move forwards under the action of gravity, the robot stably lands, and the robot can enter a rainwater pipeline to perform desilting work at the moment; when the rainwater pipeline moves, according to the image that camera 16 conveys, control first elevator motor 7 and second elevator motor 17 through automatically controlled box 19, with the suitable distance of adjustment between drive wheel 2 and the pipeline pipe wall, adjust afterbody support 14 to suitable height, be convenient for observe the desilting course of work of whole robot.
Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.

Claims (10)

1. The utility model provides a pipeline dried sludge cleaning and dredging robot which characterized in that includes:
a frame;
the milling and crushing mechanism is arranged at the front part of the frame and comprises a driving wheel and a plurality of dredging ends, and the plurality of dredging ends are arranged at the periphery of the driving wheel;
the sludge collecting mechanism is arranged on the frame, and an opening of the sludge collecting mechanism faces the milling and crushing mechanism;
the lighting observation mechanism is hinged with the rear part of the frame;
the traveling mechanism is arranged on the lower side of the frame;
and the electric control mechanism is in control connection with the milling and crushing mechanism, the travelling mechanism and the illumination observation mechanism.
2. The pipeline dried sludge cleaning and dredging robot as claimed in claim 1, further comprising a first bracket and a second bracket, wherein a motor is arranged at one end of the first bracket, the output end of the motor is in driving connection with the transmission wheel, the other end of the first bracket is connected with one end of the second bracket, the middle part of the second bracket is hinged with the front part of the frame, a first lifting motor is arranged at the middle part of the frame, and the output end of the first lifting motor is in driving connection with the other end of the second bracket.
3. The pipeline dried sludge cleaning and dredging robot as claimed in claim 1, wherein a plurality of L-shaped brackets are uniformly arranged on the periphery of the driving wheel, and the L-shaped brackets are connected with the sludge cleaning end.
4. The pipeline dry sludge cleaning and dredging robot as claimed in claim 3, wherein the dredging end comprises a plurality of nylon rods, the nylon rods are arranged along the axial direction of the driving wheel, and the outer ends of the nylon rods form a circular arc shape matched with the radius of the pipeline in the axial direction of the driving wheel.
5. The pipe drying and sludge cleaning and dredging robot of claim 1, wherein the sludge collecting mechanism comprises:
the collecting bag is arranged on the frame, and the opening end of the collecting bag faces the milling and crushing mechanism;
the upper mud guard is in an inverted U shape, and the periphery of the upper mud guard is connected with the upper part of the opening end of the collecting bag;
the two side mud guards are arranged at the lower part of the opening end of the collecting bag, are connected with the side wall of the upper mud guard, and are connected with the frame through a guard bracket;
and the two ends of the shovel plate are respectively connected with the bottoms of the side mud guards.
6. The pipe drying and dredging robot of claim 1, wherein the illumination observation mechanism comprises:
the tail support is hinged with the rear part of the frame;
the LED lamp and the camera are arranged at the top of the tail support;
and the output end of the second lifting motor is in driving connection with the bottom of the tail support.
7. The pipeline dried sludge cleaning and dredging robot of claim 1, wherein the electric control mechanism comprises:
a battery disposed on the frame;
the electronic control box is arranged at the rear part of the sludge collecting mechanism, the battery is connected with the electronic control box, and the electronic control box is in control connection with the milling and crushing mechanism, the walking mechanism and the illumination observation mechanism.
8. The pipeline dried sludge cleaning and dredging robot as claimed in claim 7, wherein a detachable battery cover and a battery baffle are arranged outside the battery.
9. The pipeline dry sludge cleaning and dredging robot of claim 1, wherein the walking mechanism comprises:
the belt nail wheels are arranged on two sides of the frame;
one end of the L-shaped connecting plate is connected with the frame, the other end of the L-shaped connecting plate is connected with the wheel with the nail through the wheel leg, and the L-shaped connecting plates on the two sides are arranged on the frame in a splayed shape.
10. The pipeline dried sludge cleaning and dredging robot as claimed in claim 9, wherein a direct current motor is arranged in the wheel leg, an output end of the direct current motor is in transmission connection with the nail-carrying wheel through a bevel gear, and epoxy resin pouring sealant is filled in the wheel leg.
CN202123098150.5U 2021-12-10 2021-12-10 Pipeline dried sludge cleaning and dredging robot Active CN216689726U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123098150.5U CN216689726U (en) 2021-12-10 2021-12-10 Pipeline dried sludge cleaning and dredging robot

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123098150.5U CN216689726U (en) 2021-12-10 2021-12-10 Pipeline dried sludge cleaning and dredging robot

Publications (1)

Publication Number Publication Date
CN216689726U true CN216689726U (en) 2022-06-07

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