CN114592584A

CN114592584A - Municipal works sewer line cleaning device

Info

Publication number: CN114592584A
Application number: CN202210257102.6A
Authority: CN
Inventors: 李甲庆
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-16
Filing date: 2022-03-16
Publication date: 2022-06-07

Abstract

The invention relates to the field of pipeline cleaning, in particular to a municipal engineering sewage pipeline cleaning device. Including first casing, first swing board, electronic round, detect and soften mechanism and clearance mechanism, the first swing board of a plurality of is installed through a piece rotary type to the lateral wall left part circumference equidistance of first casing, the electronic round that is used for the removal is installed to the equal rotary type in right part of the first swing board of a plurality of, the first swing board of a plurality of respectively with the lateral surface of first casing between the rigid coupling have be used for promoting electronic round and sewer line in close contact with's supporting spring, the left part of first casing is provided with and is used for detecting the softening mechanism of the detection of sewer line inner wall deposit thickness detection and softening, the right part of first casing is provided with the clearance mechanism that is used for the clearance of sewer line inner wall deposit. According to the invention, the detection softening mechanism is matched with the clearing mechanism to clear sediments in the sewage pipeline, and the sliding frames at two sides are far away from the contact with the electric wheels, so that the friction force of the electric wheels is increased.

Description

Municipal works sewer line cleaning device

Technical Field

The invention relates to the technical field of sewage pipeline cleaning, in particular to a municipal engineering sewage pipeline cleaning device.

Background

After the sewage pipeline is used for a long time, some sediments in the sewage can adhere to the inner wall of the sewage pipeline, the flow velocity of the sewage in the sewage pipeline can be reduced due to the blockage of the sediments on the inner wall of the sewage pipeline, when the sediments on the inner wall of the sewage pipeline are seriously accumulated, the sewage pipeline can be blocked, in order to conveniently convey the sewage through the sewage pipeline, the sediments on the inner wall of the sewage pipeline need to be regularly cleaned, when the existing cleaning device cleans the sediments on the inner wall of the sewage pipeline, a scraper or a chemical agent is mostly adopted for cleaning, when the larger sediments are cleaned through the scraper, the cleaning speed of the scraper cannot be reduced, so that the sediments on the inner wall of the sewage pipeline cannot be thoroughly cleaned, and when the sediments in the sewage pipeline are cleaned through the chemical agent, the sediments are eroded through the chemical agent, while the chemical agent can only initially attack the surface of the larger deposit, it takes a longer time to attack the subsurface of the larger deposit.

Aiming at the defects of the prior art, a municipal engineering sewage pipeline cleaning device which is thorough in cleaning and saves time is developed.

Disclosure of Invention

In order to overcome the scraper mode when clearing up great precipitate, the unable speed reduction of cleaning speed of scraper can cause the unable thorough clearance of precipitate, when clearing up through chemical agent, needs the longer time to carry out the shortcoming that corrodes to great precipitate subsurface, and the technical problem that solves is: the municipal engineering sewage pipeline cleaning device is thorough in cleaning and saves time.

The technical scheme of the invention is as follows: the utility model provides a municipal works sewer line cleaning device, including first casing, first swing board, electronic round, detect and soften mechanism and clearance mechanism, the first swing board of a plurality of is installed through a piece rotary type to the lateral wall left part circumference equidistance of first casing, the electronic round that is used for the removal is installed to the equal rotary type in right part of the first swing board of a plurality of, the first swing board of a plurality of respectively with the lateral surface of first casing between the rigid coupling have be used for promoting electronic round and sewer line inner wall in close contact with supporting spring, the left part of first casing is provided with and is used for the detection softening mechanism that detects and soften sewage line inner wall deposit thickness, the right part of first casing is provided with the clearance mechanism that is used for the clearance of sewer line inner wall deposit.

Preferred technical scheme, it is including the installation shell to detect softening mechanism, gear motor, first bevel gear, the water tank, the axis of rotation, first right-hand gear, spray assembly and determine module, the installation shell has been inlayed to the front portion of first casing, install the gear motor who is used for providing power in the installation shell, first bevel gear is installed to gear motor's output shaft, the water tank that is used for holding the cleaner is installed to the interior left part of first casing, the axis of rotation is installed to the upper portion rotary type of water tank, first bevel gear is also installed to the axis of rotation right-hand member, two first bevel gear meshes mutually, first right-hand gear is installed to the left end of axis of rotation, the interior left part of first casing is provided with spray assembly, spray assembly is last to be provided with the determine module that is used for precipitate thickness.

Preferred technical scheme, spray the subassembly including first ring gear, rotatory shell, first L venturi tube, the annular slab, link and first hollow dish, first ring gear is installed to the interior left part rotary type of first casing, first ring gear is located the left side of water tank, first straight gear is located first ring gear, first straight gear meshes with first ring gear mutually, rotatory shell is installed to the left surface rotary type of water tank, be equipped with the suction pump in the water tank, the suction pump passes through the hose intercommunication with rotatory shell, the left surface of rotatory shell has inlayed a plurality of and is used for spraying the first L venturi tube of cleaner, install the annular slab between the outer end of the first L venturi tube of a plurality of, the annular slab is with the left surface rigid coupling of first ring gear, the left surface rigid coupling of annular slab has the link, first hollow dish is installed to the left surface of link.

The preferable technical scheme is that the detection assembly comprises a first slide bar, a first contact wheel, a first piston rod, a second L-shaped pipe, a first piston shell, a first piston plate and an extrusion block, a plurality of first slide bars are rotatably arranged on the circumferential wall of a first hollow disc in an equidistance manner, the outer ends of the first slide bars are rotatably provided with the first contact wheel for detecting the thickness of the sediment, springs are fixedly connected between the inner ends of the first slide bars and a connecting frame, the inner ends of the first slide bars are provided with the first piston rods respectively, the first piston rods are respectively positioned at the inner sides of the adjacent springs, a plurality of second L-shaped pipes are embedded at the left part of the connecting frame in an equidistance manner in the circumferential direction, the interiors of the first piston rods are respectively slidably arranged in the adjacent second L-shaped pipes, the right parts of the second L-shaped pipes are provided with the first piston shell, the second L-shaped pipes are respectively communicated with the first piston shell, the first piston shell is internally provided with a first piston plate in a sliding manner, the first piston plate, the first piston shell, the second L-shaped pipe and the first piston rod are matched to form a sealed cavity, hydraulic oil is arranged in the sealed cavity, the right side surface of the first piston plate is provided with an extrusion block, the extrusion block penetrates through the rotating shell and is in sliding connection with the rotating shell, the left part of the first L-shaped pipe of the plurality of is provided with a water baffle plate used for controlling the spraying amount of the cleaning agent in a sliding manner, and the plurality of water baffle plates are respectively in contact fit with the extrusion block.

The optimized technical scheme is that the clearing mechanism comprises a rotating shell, a servo motor, a second bevel gear, a second straight gear, a connecting disc, a second gear ring, a fixed shell, a cleaning scraper, a compression spring, a connecting rod, a pull rope, a thickness measuring component, a speed reducing component, a second shell, a second swinging plate and a guide wheel, wherein the servo motor for providing power is arranged on the upper portion of the inner right wall of the rotating shell through a mounting seat, the second bevel gear is installed on an output shaft of the servo motor, the second bevel gear is installed on the lower portion of the inner right wall of the rotating shell in a rotating mode through a rotating rod, the two second bevel gears are meshed with each other, the second straight gear is installed on the left portion of the rotating rod of the lower second bevel gear, the connecting disc is installed on the left side of the rotating shell, the second gear ring is fixedly connected to the left side of the connecting disc, the left portion of the rotating rod of the lower second bevel gear penetrates through the connecting disc to be rotatably connected with the connecting disc, and the second straight gear is located on the inner side of the second gear ring, second spur gear and second ring gear mesh mutually, the set casing is installed to second ring gear left surface rotary type, a plurality of spout has been seted up to set casing circumference, it is equipped with the clearance doctor-bar all to slide in the a plurality of spout of set casing, the rigid coupling has compression spring between a plurality of clearance doctor-bar and the set casing, the connecting rod is installed to the middle part slidingtype of set casing, the inner of a plurality of clearance doctor-bar respectively and the rigid coupling between the connecting rod have the stay cord, the left part of connecting rod is provided with the thickness measurement subassembly, be provided with the speed reduction subassembly on the thickness measurement subassembly, the lower part rigid coupling of speed reduction subassembly and first casing, the second casing is installed to the right flank of rotation casing, a plurality of second swing board is installed through the connecting block rotary type to the lateral wall right part circumference equidistance of second casing, the leading wheel is installed to the equal rotary type in left part of a plurality of second swing board, a plurality of second swing board respectively and the lateral surface of second casing between the rigid coupling have supporting spring.

Preferably, the thickness measuring assembly comprises a second piston shell, a second piston plate, a connecting block, a T-shaped rod, a third bevel gear, a third straight gear, a third gear ring, a second hollow disc, a second slide rod, a second contact wheel, a second piston rod, an annular ring and a third L-shaped pipe, the second piston shell is rotatably mounted on the front side of the right part in the first shell through a fixing rod, the left part of the connecting rod penetrates through the second piston shell to be slidably connected with the second piston shell, a second piston plate is slidably mounted in the second piston shell and is slidably arranged with the connecting rod, two convex rods are symmetrically mounted on the left part of the second piston plate from top to bottom, the connecting block is rotatably connected on the left part of the outer side surface of the second piston shell, the T-shaped rod is mounted on the left side surface of the connecting block through a spring, a support plate is fixedly connected on the right side of the upper part in the first shell, a third bevel gear is rotatably mounted on the lower part of the support plate on the first shell through a rotating rod, a third bevel gear is positioned on the right side of the first bevel gear, the third bevel gear is meshed with the adjacent first bevel gear, a third straight gear is arranged at the other end of a rotating rod on the third bevel gear, a third gear ring is rotatably arranged on the right side surface of the first shell, the third straight gear is positioned on the inner side of the third gear ring, the third straight gear is meshed with the third gear ring, a second hollow disc is arranged on the right side surface of the third gear ring, a plurality of second slide rods are rotatably arranged on the circumferential equidistant rotary type of the second hollow disc, a second contact wheel for measuring the thickness of sediments is rotatably arranged at the outer ends of the plurality of second slide rods, second piston rods are respectively arranged at the inner ends of the plurality of second slide rods, an annular ring is rotatably connected on the left side surface of the fixed shell, a plurality of third L-shaped pipes are embedded on the circumferential equidistant rotary type of the outer side wall of the annular ring, and the inner ends of the plurality of the second piston rods are respectively slidably arranged in the adjacent third L-shaped pipes, and springs are fixedly connected between the plurality of second sliding rods and the annular rings respectively.

Preferred technical scheme, the speed reduction subassembly is including hollow plate, the conical plate, mounting panel and carriage, the equal rigid coupling in two portions has hollow core plate around the T shape pole, both sides face upper portion all is equipped with outside protruding pole around the conical plate, two protruding poles of conical plate slide respectively and set up in two hollow core plates, the mounting panel has been inlayed to the right part lower side of first casing, two portions all slide around in the mounting panel and are equipped with the carriage, two carriages respectively with between the mounting panel the rigid coupling have be used for the spring that resets, the outside of two carriages is the wedge setting, conical plate and two carriage contact cooperations.

According to the preferred technical scheme, a plurality of groups of hairbrushes are arranged on the outer side wall of the rotating shell in the circumferential direction at equal intervals.

The optimized technical scheme also comprises a collecting mechanism, the collecting mechanism for cleaning sundries is arranged at the right part of the second shell, the collecting mechanism comprises a hollow cylinder, a fourth bevel gear, a fifth bevel gear, a moving frame, a circular block and a cleaning frame, the inner side surface of the second shell is rotatably provided with the hollow cylinder, the inner left wall of the hollow cylinder is provided with a right convex column, the left side surface of the hollow cylinder is provided with the fourth bevel gear through a rotating rod, a conveying shaft of a servo motor is provided with the fifth bevel gear, the fifth bevel gear is positioned at the upper side of the third bevel gear, the fifth bevel gear is positioned at the upper side of the fourth bevel gear and is meshed with the fourth bevel gear, the inner side surface of the hollow cylinder and the outer side surface of the convex column are respectively provided with a track groove, the moving frame is arranged in the track groove of the hollow cylinder in a sliding manner, the circular block is arranged at the right side surface of the convex column on the hollow cylinder, the lower part of the circular block is provided with a track groove, a cleaning frame is arranged in the track groove of the round block in a sliding mode, and the moving frame is in sliding fit with the cleaning frame.

Has the advantages that: according to the invention, the detection softening mechanism is matched with the clearing mechanism to clear sediments in the sewage pipeline, and the sliding frames at two sides are far away from the contact with the electric wheels, so that the friction force of the electric wheels is increased, the moving speed of the electric wheels is reduced, and the situation that the sediments with larger size cannot be thoroughly cleared at an excessively high speed is avoided; utilize the set casing to rotate the brush hair that drives it and clear up sewage pipe once more, utilize the clearance frame to move right and left and promote the sediment under the clearance left, be convenient for clear up the sediment in the sewage pipe.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partially cut-away perspective structure schematic diagram of a softening detection mechanism of the invention.

Fig. 3 is a partial perspective view of the softening detection mechanism of the present invention.

Fig. 4 is a schematic partial perspective view of the softening detection mechanism of the present invention.

Fig. 5 is a schematic perspective view of the cleaning mechanism of the present invention.

FIG. 6 is a schematic view of a first partial body configuration of the purging mechanism of the present invention.

FIG. 7 is a schematic view of a second partial body configuration of the purging mechanism of the present invention.

Fig. 8 is a partial perspective view of the cleaning mechanism of the present invention.

Fig. 9 is a partially enlarged perspective view of the clearing mechanism of the present invention.

Fig. 10 is a perspective view of a third portion of the clearing mechanism of the present invention.

Fig. 11 is a schematic perspective view of the collecting mechanism of the present invention.

Fig. 12 is a partially cut-away perspective view of the collection mechanism of the present invention.

Fig. 13 is a partially cut-away perspective view of the collection mechanism of the present invention.

Labeled as: 1-a first housing, 101-a first wobble plate, 102-an electric wheel, 2-a detection softening mechanism, 201-a mounting housing, 202-a reduction motor, 203-a first bevel gear, 204-a water tank, 205-a rotating shaft, 206-a first spur gear, 207-a first ring gear, 208-a rotating housing, 209-a first L-shaped tube, 210-an annular plate, 211-a connecting frame, 212-a first hollow disc, 213-a first sliding bar, 214-a first contact wheel, 215-a first piston rod, 216-a second L-shaped tube, 217-a first piston housing, 218-a first piston plate, 219-an extrusion block, 3-a clearing mechanism, 301-a rotating housing, 302-a servo motor, 303-a second bevel gear, 304-a second spur gear, 305-a connecting disc, 306-a second gear ring, 307-a stationary housing, 308-a cleaning blade, 309-a compression spring, 310-a connecting rod, 311-a pulling rope, 312-a second piston housing, 313-a second piston plate, 314-a connecting block, 315-a T-shaped rod, 316-a third bevel gear, 317-a third spur gear, 318-a third gear ring, 319-a second hollow disc, 320-a second sliding rod, 321-a second contact wheel, 3211-a second piston rod, 322-an annular ring, 3221-a third L-shaped tube, 324-a hollow plate, 325-a conical plate, a mounting plate, 328-a sliding frame, 329-a second housing, 330-a second swinging plate, 331-a guide wheel, 4-a collecting mechanism, 401-a hollow cylinder, 402-a fourth bevel gear, 404-fifth bevel gear, 405-moving frame, 406-round block, 407-sliding chute, 408-cleaning frame.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

A municipal works sewer pipe cleaning device, as shown in fig. 1-11, comprising a first housing 1, a first swing plate 101, electronic round 102, detect and soften mechanism 2 and clearance mechanism 3, three first swinging plate 101 is installed through a piece rotary type to the lateral wall left part circumference equidistance of first casing 1, electronic round 102 that is used for the removal is installed to the equal rotary type in right part of the first swinging plate 101 of a plurality of, the contained angle of three electronic round 102 is 60, it is used for the steady removal process to form equilateral triangle, a plurality of first swinging plate 101 respectively and the lateral surface of first casing 1 between the rigid coupling have be used for promoting electronic round 102 and sewage pipe inner wall in close contact with supporting spring, the left part of first casing 1 is provided with and is used for softening mechanism 2 to the detection that sewage pipe inner wall deposit thickness detected and softened, the right part of first casing 1 is provided with the clearance mechanism 3 that is used for the clearance of sewage pipe inner wall deposit.

When the device is used, a user firstly adds a proper amount of cleaning agent for cleaning sediments on the inner wall of the sewage pipeline into the detection softening mechanism 2, moves the device into the inner side of the sewage pipeline, then the user starts the detection softening mechanism 2 to work, the detection softening mechanism 2 works to soften the sediments in the sewage pipeline, and simultaneously detects the thickness of the sediments in the sewage pipeline, then the user starts the cleaning mechanism 3 to work, the cleaning mechanism 3 works to clean the sediments on the inner wall of the sewage pipeline and provides power for the device to move leftwards, the cleaning mechanism 3 works and simultaneously carries out secondary thickness detection on the sediments in the sewage pipeline, when the detected sediments are thick, the cleaning mechanism 3 decelerates the moving speed of the detection softening mechanism 2, so the time for cleaning thick sediments is prolonged, and the device is prevented from moving leftwards too fast, cause can't thoroughly clear up the sediment in the sewer line, after the inner wall sediment clearance of sewer line was accomplished, the user closed and detects softening mechanism 2 and clearance mechanism 3, the user afterwards with this device shift out in the sewer line can, when the sediment in the sewer line is cleared up again to needs, the repeated above-mentioned operation of user can.

As shown in fig. 2-4, the detection softening mechanism 2 includes a mounting shell 201, a reduction motor 202, a first bevel gear 203, a water tank 204, a rotation shaft 205, a first straight gear 206, a first gear ring 207, a rotation shell 208, a first L-shaped pipe 209, a ring plate 210, a connecting frame 211, a first hollow disc 212 and a detection assembly, the mounting shell 201 is embedded in the front portion of the first housing 1, the reduction motor 202 for providing power is installed in the mounting shell 201, the first bevel gear 203 is installed at the rear portion of the output shaft of the reduction motor 202, the water tank 204 for containing cleaning agent is installed at the inner left portion of the first housing 1, the rotation shaft 205 is rotatably installed at the upper portion of the water tank 204, the first bevel gear 203 is also installed at the right end of the rotation shaft 205, the two first bevel gears 203 are engaged, the first straight gear 206 is installed at the left end of the rotation shaft 205, the first gear ring 207 is rotatably installed at the inner left portion of the first housing 1, the first gear ring 207 is positioned at the left side of the water tank 204, the first gear 206 is positioned in the first gear ring 207, the first gear 206 is meshed with the first gear ring 207, the rotary shell 208 is rotatably installed at the left side surface of the water tank 204, a water suction pump is arranged in the water tank 204 and is communicated with the rotary shell 208 through a hose, six first L-shaped pipes 209 for spraying cleaning agents are embedded at the left side surface of the rotary shell 208, the cleaning agents in the rotary shell 208 are sprayed out through the plurality of first L-shaped pipes 209, meanwhile, due to the clockwise rotation of the plurality of first L-shaped pipes 209, the sprayed cleaning agents are sprayed out through centrifugal force, the sprayed cleaning agents are uniformly sprayed on sediments on the inner wall of the sewage pipeline, so that the cleaning agents are used for eroding the sediments on the inner wall of the sewage pipeline, the subsequent cleaning of the sediments on the inner wall of the sewage pipeline is facilitated, an annular plate 210 is installed between the outer ends of the six first L-shaped pipes 209, the annular plate 210 is fixedly connected with the left side surface of the first gear ring 207, the connecting frame 211 is fixedly connected with the left side surface of the annular plate 210, the first hollow disc 212 is mounted on the left side surface of the connecting frame 211, and the first hollow disc 212 is provided with a detection assembly for detecting the thickness of sediment.

The detection assembly comprises a first sliding rod 213, a first contact wheel 214, a first piston rod 215, a second L-shaped tube 216, a first piston shell 217, a first piston plate 218 and a squeezing block 219, six first sliding rods 213 are rotatably arranged on the circumferential wall of the first hollow disc 212 at equal intervals, the first contact wheels 214 for detecting the thickness of the sediment are rotatably arranged at the outer ends of the six first sliding rods 213, springs are fixedly connected between the inner ends of the six first sliding rods 213 and the connecting frame 211, first piston rods 215 are respectively arranged at the inner ends of the six first sliding rods 213, the six first piston rods 215 are respectively positioned at the inner sides of the adjacent springs, six second L-shaped tubes 216 are embedded at the left part of the connecting frame 211 at equal intervals in the circumferential direction, the interiors of the six first piston rods 215 are respectively slidably arranged in the adjacent second L-shaped tubes 216, the right parts of the six second L-shaped tubes 216 are provided with the first piston shells 217, the six second L-shaped tubes 216 are respectively communicated with the first piston shells 217, a first piston plate 218 is arranged in the first piston shell 217 in a sliding manner, the first piston plate 218, the first piston shell 217, the second L-shaped pipe 216 and the first piston rod 215 are matched to form a sealed cavity, hydraulic oil is arranged in the sealed cavity, an extrusion block 219 is arranged on the right side surface of the first piston plate 218, the extrusion block 219 penetrates through the rotating shell 208 and is in sliding connection with the rotating shell, water baffles for controlling the spraying amount of the cleaning agent are arranged on the left parts of the six first L-shaped pipes 209 in a sliding manner, the six water baffles are respectively in contact fit with the extrusion block 219, the first piston plate 218 moves leftwards to drive the extrusion block 219 to move leftwards, the cleaning agent can continuously impact the water baffles on the first L-shaped pipes 209, in the process that the extrusion block 219 moves leftwards, the water baffles on the plurality of the first L-shaped pipes 209 are closed together, water inlets of the plurality of first L-shaped pipes 209 are gradually opened, the conveying amount of the cleaning agent is increased, and more cleaning agent is sprayed on sediments on the inner wall of the sewage pipe, the spraying quantity of the sediments with different sizes is prevented from being consistent, and the erosion of larger sediments is prevented from being hindered.

As shown in fig. 5 to 11, the cleaning mechanism 3 includes a rotating housing 301, a servo motor 302, a second bevel gear 303, a second spur gear 304, a connecting disc 305, a second gear ring 306, a fixed housing 307, a cleaning blade 308, a compression spring 309, a connecting rod 310, a pulling rope 311, a second piston housing 312, a second piston plate 313, a connecting block 314, a T-shaped rod 315, a third spur gear 316, a third spur gear 317, a third gear ring 318, a second hollow disc 319, a second sliding rod 320, a second contact wheel 321, a second piston rod 3211, an annular ring 322, a third L-shaped pipe 3221, a speed reduction assembly, a second housing 329, a second swing plate 330 and a guide wheel 331, a plurality of sets of brushes are disposed on an outer side wall of the rotating housing 301 in the circumferential direction, the rotating housing 301 rotates to scrub the sediment on the inner wall of the sewage conduit again counterclockwise, the servo motor 302 for providing power is disposed on an upper portion of an inner right wall of the rotating housing 301 through a mounting seat, a second bevel gear 303 is installed at the lower part of an output shaft of the servo motor 302, a second bevel gear 303 is installed at the lower part of the right wall in the rotating shell 301 in a rotating mode through a rotating rod, the two second bevel gears 303 are meshed with each other, a second spur gear 304 is installed at the left part of the rotating rod of the second bevel gear 303 at the lower side, a connecting disc 305 is installed at the left side surface of the rotating shell 301, a second ring gear 306 is fixedly connected to the left side surface of the connecting disc 305, the left part of the rotating rod of the second bevel gear 303 at the lower side penetrates through the connecting disc 305 to be rotatably connected with the connecting disc 305, the second spur gear 304 is located at the inner side of the second ring gear 306, the second spur gear 304 is meshed with the second ring gear 306, a fixed shell 307 is rotatably installed at the left side surface of the second ring gear 306, six sliding grooves are circumferentially formed in the fixed shell 307, cleaning blades 308 are all slidably arranged in the six sliding grooves of the fixed shell 307, compression springs 309 are fixedly connected between the six cleaning blades 308 and the fixed shell 307, so that the cleaning blades 308 rotate anticlockwise to clean sediments on the inner wall of the sewage pipeline, the counterclockwise rotating speed of the cleaning blade 308 is faster than the clockwise rotating speed of the first contact wheel 214, and the cleaning blade 308 is always in contact with the inner wall of the sewage pipeline or the sediment through the compression spring 309, so that the sediment eroded by the cleaning agent can be cleaned through the cleaning blade 308, the middle part of the fixed shell 307 is slidably provided with a connecting rod 310, the inner ends of the six cleaning blades 308 are respectively and fixedly connected with a pull rope 311 between the connecting rod 310, the front side of the right part in the first shell 1 is rotatably provided with a second piston shell 312 through a fixed rod, the left part of the connecting rod 310 passes through the second piston shell 312 to be slidably connected with the second piston shell 312, a second piston plate 313 is slidably arranged in the second piston shell 312, the second piston plate 313 and the connecting rod 310 are slidably arranged, the left part of the second piston plate 313 is vertically and symmetrically provided with two convex rods, and the left part of the outer side surface of the second piston shell 312 is rotatably connected with a connecting block 314, a T-shaped rod 315 is arranged on the left side surface of the connecting block 314 through a spring, a support plate is fixedly connected to the right side of the upper part in the first shell 1, a third bevel gear 316 is rotatably arranged on the lower part of the support plate on the first shell 1 through a rotating rod, the third bevel gear 316 is positioned on the right side of the first bevel gear 203, the third bevel gear 316 is meshed with the adjacent first bevel gear 203, a third straight gear 317 is arranged at the other end of the rotating rod on the third bevel gear 316, a third gear ring 318 is rotatably arranged on the right side surface of the first shell 1, the third straight gear 317 is positioned on the inner side of the third gear ring 318, the third straight gear 317 is meshed with the third gear ring 318, a second hollow disc 319 is arranged on the right side surface of the third gear ring 318, six second sliding rods 320 are circumferentially and equidistantly arranged on the second hollow disc 319, second contact gears 321 for measuring the thickness of sediments are rotatably arranged at the outer ends of the six second sliding rods 320, and when the second contact gears 321 are contacted with larger sediments on the inner wall of the sewage pipeline, the second contact wheel 321 is collapsed to the center of the second hollow disc 319 through the corresponding second sliding rod 320, the inner ends of the six second sliding rods 320 are all provided with second piston rods 3211, the left side surface of the fixed shell 307 is rotatably connected with an annular ring 322, the outer side wall of the annular ring 322 is embedded with six third L-shaped tubes 3221 at equal intervals in the circumferential direction, the inner ends of the six second piston rods 3211 are respectively arranged in adjacent third L-shaped tubes 3221 in a sliding manner, springs are fixedly connected between the six second sliding rods 320 and the annular ring 322, the T-shaped rod 315 is provided with a speed reduction assembly, the speed reduction assembly is fixedly connected with the lower portion of the first shell 1, the right side surface of the rotating shell 301 is provided with a second shell 329, the right portion of the outer side wall of the second shell 329 is rotatably provided with three second swinging plates 330 through supporting blocks at equal intervals in the circumferential direction, the left portions of the three second swinging plates 330 are rotatably provided with guide wheels 331, the included angles of the three guide wheels 331 are 60 degrees, an equilateral triangle is formed for stabilizing the moving process, and a supporting spring for pushing the guide wheel 331 to be in close contact with the inner wall of the sewage conduit is fixedly connected between each of the three second swing plates 330 and the outer side surface of the second housing 329.

The speed reducing assembly comprises a hollow plate 324, a conical plate 325, a mounting plate 327 and a sliding frame 328, wherein the front part and the rear part of a T-shaped rod 315 are fixedly connected with the hollow plate 324, the upper parts of the front side surface and the rear side surface of the conical plate 325 are respectively provided with an outward convex rod, the two convex rods of the conical plate 325 are respectively arranged in the two hollow plates 324 in a sliding way, the mounting plate 327 is embedded at the lower side of the right part of the first shell 1, the sliding frame 328 is arranged in the mounting plate 327 in a sliding way, the hollow plate 324 moves leftwards so that the conical plate 325 moves downwards, the conical plate 325 moves downwards to press the sliding frames 328 at the two sides to be far away, a spring connected on the sliding frame 328 is compressed along with the sliding frame, the two sliding frames 328 are far away from being respectively contacted with the adjacent first contact wheels 214, so that the friction force with the first contact wheels 214 is increased, the rotating speed of the first contact wheels 214 is reduced, and the moving speed is prevented from being too high when large sediment is encountered, cause the unable thorough clearance of sediment in the sewer line, two carriages 328 respectively with the mounting panel 327 between the rigid coupling be used for the spring that resets, two carriages 328 outside is the wedge setting, conical plate 325 and two carriages 328 contact cooperations.

When in use, a user adds a proper amount of cleaning agent for cleaning sediments on the inner wall of the sewage pipeline into the water tank 204, moves the device leftwards into the sewage pipeline, enables the first contact wheels 214 and the second contact wheels 321 to be in contact with the inner wall of the sewage pipeline through springs, enables the electric wheels 102 and the guide wheels 331 to be in close contact with the inner wall of the sewage pipeline all the time through supporting springs, then the user starts the speed reducing motor 202 to drive the rotating shaft 205 to rotate clockwise through the two first bevel gears 203, enables the rotating shaft 205 to rotate clockwise, enables the first gear ring 207 to rotate clockwise through the first straight gear 206, drives the annular plate 210 to rotate clockwise, drives the first L-shaped pipes 209 to rotate clockwise through the annular plate 210, and simultaneously starts the water pump to extract the cleaning agent in the water tank 204, and is conveyed into the rotating shell 208, with the increasing of the cleaning agent amount in the rotating shell 208, the cleaning agent in the rotating shell 208 is sprayed out through the plurality of first L-shaped pipes 209, meanwhile, because the plurality of first L-shaped pipes 209 rotate clockwise, the sprayed cleaning agent is spilled out through centrifugal force, so that the sprayed cleaning agent is more uniformly sprinkled on the sediment on the inner wall of the sewage pipeline, so that the sediment on the inner wall of the sewage pipeline is eroded by the cleaning agent, the subsequent sediment cleaning on the inner wall of the sewage pipeline is facilitated, the annular plate 210 rotates clockwise, the first hollow disc 212 rotates clockwise through the connecting frame 211, the first hollow disc 212 drives the first sliding rod 213, the first contact wheel 214, the first piston rod 215, the second L-shaped pipe 216, the first piston shell 217, the first piston plate 218 and the extrusion block 219 thereon to rotate clockwise, because the position of the sediment on the inner wall of the sewage pipeline is fixed, thus, when the first contact wheel 214 contacts with sediment on the inner wall of the sewage pipeline, the first contact wheel 214 collapses towards the center of the first hollow disc 212 through the corresponding first sliding rod 213, the spring connected to the first sliding rod 213 compresses therewith, the corresponding first sliding rod 213 collapses towards the center of the first hollow disc 212 to drive the first piston rod 215 thereon to move, the corresponding first piston rod 215 moves to push the hydraulic oil in the adjacent second L-shaped tube 216 into the first piston housing, so that the first piston plate 218 moves leftwards, the first piston plate 218 moves leftwards to drive the extrusion block 219 to move leftwards, as the cleaning agent continuously impacts the water baffles on the first L-shaped tube 209, in the process that the extrusion block 219 moves leftwards, the water baffles on the plurality of first L-shaped tubes 209 are closed together along with the water baffles, the water inlets of the plurality of first L-shaped tubes 209 are gradually opened, so as to increase the conveying capacity of the cleaning agent, more cleaning agents are sprayed on the sediment on the inner wall of the sewage pipeline, and the condition that the spraying amount of the sediment with different sizes is consistent and the larger sediment is corroded to cause obstruction is avoided.

When the speed reducing motor 202 is started, a user starts the electric wheel 102 to rotate anticlockwise and the servo motor 302 to work, the electric wheel 102 rotates anticlockwise to provide power for the device to move leftwards, the servo motor 302 works and is driven by the two second bevel gears 303 to enable the second spur gear 304 to rotate anticlockwise, the second spur gear 304 rotates anticlockwise to enable the second ring gear 306 to rotate anticlockwise, the second ring gear 306 rotates anticlockwise to enable the fixed shell 307 to rotate anticlockwise, the fixed shell 307 rotates anticlockwise to drive the cleaning blade 308, the compression spring 309, the connecting rod 310 and the pull rope 311 to rotate anticlockwise, so that the cleaning blade 308 rotates anticlockwise to clean sediment on the inner wall of the sewage pipeline, the anticlockwise rotation speed of the cleaning blade 308 is higher than the clockwise rotation speed of the first contact wheel 214, and meanwhile, the cleaning blade 308 is always in contact with the inner wall or the sediment of the sewage pipeline through the compression spring 309, so that the cleaning blade 308 is convenient to clean the sediments eroded by the cleaning agent, the speed reducing motor 202 works and is driven by the first bevel gear 203 and the third bevel gear 316 to enable the third spur gear 317 to rotate clockwise, the third spur gear 317 rotates clockwise to enable the third gear ring 318 to rotate clockwise, the third gear ring 318 rotates clockwise to drive the second hollow disc 319 to rotate clockwise, the second hollow disc 319 rotates clockwise to drive the second sliding rod 320, the second contact wheel 321, the second piston rod 3211 and the third L-shaped tube 3221 to rotate clockwise, when the second contact wheel 321 is contacted with larger sediments on the inner wall of the sewage pipeline, the second contact wheel 321 is collapsed to the center of the second hollow disc 319 through the corresponding second sliding rod 320, the spring connected to the second sliding rod 320 is compressed therewith, the corresponding second sliding rod 320 is collapsed to the center of the second hollow disc 319 to drive the second piston rod 3211 thereon to move, the corresponding second piston rod 3211 moves to push the hydraulic oil in the adjacent third L-shaped pipe 3221 into the first piston shell 217, so that the second piston plate 313 moves leftwards, the second piston plate 313 moves leftwards to push the T-shaped rod 315 to move leftwards, the T-shaped rod 315 moves leftwards to drive the hollow plate 324 to move leftwards, the hollow plate 324 moves leftwards so that the conical plate 325 moves downwards, the conical plate 325 moves downwards to press the sliding frames 328 at two sides away from each other, the springs connected to the sliding frames 328 compress the sliding frames 328, the two sliding frames 328 move away from the contact with the adjacent first contact wheel 214 respectively, so that the friction force with the first contact wheel 214 is increased, the rotation speed of the first contact wheel 214 is reduced, the phenomenon that the movement speed is too fast when large sediments are encountered, so that the sediments in the sewage pipeline cannot be thoroughly cleaned is avoided, when the second contact wheel 321 moves away from the large sediments in the sewage pipeline, the second contact wheel 321 is moved away from the center of the second hollow disc 319 by the compression spring 309, so as to draw back the hydraulic oil in the corresponding third L-shaped pipe 3221, so as to move the second piston plate 313 to the reset position, so as to move the conical plate 325 to the reset position, and the two sliding frames 328 are moved together to the reset position by the spring thereon, so as to release the friction against the first contact wheel 214.

Since the first contact wheel 214 and the second contact wheel 321 move leftwards while rotating circumferentially, so that the first contact wheel 214 and the second contact wheel 321 respectively drive the first sliding rod 213 and the second sliding rod 320 to move along the trajectory of the thread in the sewage pipe, when the device is moved leftwards out of the sewage pipe, the user turns off the speed reduction motor 202, the servo motor 302 and the electric wheel 102.

Example 2

Based on embodiment 1, as shown in fig. 11 to 13, the device further includes a collecting mechanism 4, the right portion of the second housing 329 is provided with the collecting mechanism 4 for cleaning impurities, the collecting mechanism 4 includes a hollow cylinder 401, a fourth bevel gear 402, a fifth bevel gear 404, a movable frame 405, a circular block 406 and a cleaning frame 408, the hollow cylinder 401 is rotatably mounted on the inner side surface of the second housing 329, a right convex pillar is disposed on the inner left wall of the hollow cylinder 401, the fourth bevel gear 402 is mounted on the left side surface of the hollow cylinder 401 through a rotating rod, the fifth bevel gear 404 is mounted on a conveying shaft of the servo motor 302, the rotating rod on the fourth bevel gear 402 passes through the fixed shell 307, the fifth bevel gear 404 is located on the upper side of the fourth bevel gear 402, the fifth bevel gear 404 is engaged with the fourth bevel gear 402, track grooves are disposed on the inner side surface of the hollow cylinder 401 and the outer side surface of the convex pillar, the movable frame 405 is slidably disposed in the track groove of the hollow cylinder 401, the hollow cylinder 401 rotates to enable the movable frame 405 to move rightwards and leftwards through the track groove on the hollow cylinder 401, the circular block 406 is rotatably mounted on the right side face of the convex column on the hollow cylinder 401, the track groove is formed in the lower portion of the circular block 406, the cleaning frame 408 is slidably arranged in the track groove of the circular block 406, sediment cleaned in the sewage pipeline is continuously moved rightwards and leftwards to be pushed leftwards to be moved out of the sewage pipeline, and the movable frame 405 is in sliding fit with the cleaning frame 408.

The rotating shell 301 rotates counterclockwise to scrub the sediment on the inner wall of the sewage pipeline again through the brush connected to the rotating shell, so as to prevent the sediment from being missed due to the unclean cleaning of the cleaning blade 308, the servo motor 302 operates to rotate the hollow cylinder 401 through the transmission of the fifth bevel gear 404 and the fourth bevel gear 402, the hollow cylinder 401 rotates to move the moving frame 405 to the right and left through the rail groove on the hollow cylinder 401, the moving frame 405 moves to the right and the cleaning frame 408 moves to the right, the cleaning frame 408 moves to the right in the rail groove of the circular block 406, when the cleaning frame 408 moves to the rightmost side in the rail groove of the circular block 406, the moving frame 405 moves to the rightmost side in the rail groove of the hollow cylinder 401 at this time, the cleaning frame 408 follows the rail groove of the circular block 406 to move downwards, then the hollow cylinder 401 rotates to move the moving frame 405 to the left, and the moving frame 405 moves to the left, then the cleaning frame 408 moves to the right and left at the lower side of the track groove of the circular block 406, the cleaning frame 408 continuously moves to the right and left to push the sediment cleaned in the sewage pipe to the left to move out of the sewage pipe, and after the device moves out of the sewage pipe to the left, the user moves the cleaning frame 408 to reset.

The above embodiments are only for illustrating the technical idea and features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the protection scope of the present invention by this means. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a municipal works sewer line cleaning device, includes first casing (1), first swinging plate (101) and electronic round (102), its characterized in that: still including detecting softening mechanism (2) and clearance mechanism (3), a plurality of first swinging plate (101) is installed through a piece rotary type to the lateral wall left part circumference equidistance of first casing (1), electronic round (102) that are used for the removal are installed to the equal rotary type in right part of a plurality of first swinging plate (101), a plurality of first swinging plate (101) respectively with the lateral surface of first casing (1) between the rigid coupling have be used for promoting electronic round (102) and sewage pipe inner wall in close contact with's supporting spring, the left part of first casing (1) is provided with and is used for softening mechanism (2) to the detection that sewage pipe inner wall deposit thickness detected and softened, the right part of first casing (1) is provided with and is used for clearance mechanism (3) to sewage pipe inner wall deposit clearance.

2. The municipal works sewer pipe cleaning apparatus of claim 1, wherein: detect and soften mechanism (2) including installation shell (201), gear motor (202), first bevel gear (203), water tank (204), axis of rotation (205), first straight gear (206), spray subassembly and determine module, installation shell (201) has been inlayed to the front portion of first casing (1), install gear motor (202) that is used for providing power in installation shell (201), first bevel gear (203) is installed to the output shaft of gear motor (202), water tank (204) that is used for holding the cleaner is installed to the interior left part of first casing (1), axis of rotation (205) is installed to the upper portion rotary type of water tank (204), first bevel gear (203) is also installed to axis of rotation (205) right-hand member, two first bevel gear (203) mesh mutually, first straight gear (206) is installed to the left end of axis of rotation (205), the interior left part of first casing (1) is provided with sprays the subassembly, the spraying assembly is provided with a detection assembly for the thickness of the sediment.

3. The municipal works sewer pipe cleaning apparatus according to claim 2, wherein: the spraying component comprises a first gear ring (207), a rotating shell (208), first L-shaped pipes (209), a ring plate (210), a connecting frame (211) and a first hollow disc (212), the first gear ring (207) is rotatably installed at the inner left part of the first shell (1), the first gear ring (207) is located at the left side of the water tank (204), a first straight gear (206) is located in the first gear ring (207), the first straight gear (206) is meshed with the first gear ring (207), the rotating shell (208) is rotatably installed on the left side surface of the water tank (204), a water suction pump is arranged in the water tank (204), the water suction pump is communicated with the rotating shell (208) through a hose, a plurality of first L-shaped pipes (209) used for spraying cleaning agents are embedded on the left side surface of the rotating shell (208), the ring plate (210) is installed between the outer ends of the plurality of first L-shaped pipes (209), and the ring plate (210) is fixedly connected with the left side surface of the first gear ring (207), a connecting frame (211) is fixedly connected to the left side face of the annular plate (210), and a first hollow disc (212) is mounted on the left side face of the connecting frame (211).

4. The municipal works sewer pipe cleaning apparatus according to claim 2, wherein: the detection assembly comprises a first sliding rod (213), a first contact wheel (214), a first piston rod (215), a second L-shaped pipe (216), a first piston shell (217), a first piston plate (218) and an extrusion block (219), a plurality of first sliding rods (213) are rotatably arranged on the circumferential wall of the first hollow disc (212) at equal intervals, the first contact wheels (214) used for detecting the thickness of precipitates are rotatably arranged at the outer ends of the first sliding rods (213), springs are fixedly connected between the inner ends of the first sliding rods (213) and the connecting frame (211), the first piston rods (215) are respectively arranged at the inner ends of the first sliding rods (213), the first piston rods (215) are respectively positioned on the inner sides of the adjacent springs, a plurality of second L-shaped pipes (216) are embedded at equal intervals on the left circumferential part of the connecting frame (211), the interiors of the first piston rods (215) are respectively arranged in the adjacent second L-shaped pipes (216) in a sliding manner, the right part of a plurality of second L venturi tube (216) is provided with first piston shell (217), a plurality of second L venturi tube (216) communicate with first piston shell (217) respectively, it is equipped with first piston board (218) to slide in first piston shell (217), first piston board (218), first piston shell (217), second L venturi tube (216) and first piston rod (215) cooperation form sealed chamber, and be equipped with hydraulic oil in the sealed chamber, extrusion piece (219) is installed to the right flank of first piston board (218), extrusion piece (219) pass rotatory shell (208) and its sliding connection, the left part of a plurality of first L venturi tube (209) all slides and is equipped with the breakwater that is used for controlling the cleaner volume of spraying, a plurality of breakwater respectively with extrusion piece (219) contact cooperation.

5. The municipal works sewer pipe cleaning apparatus of claim 1, wherein: the clearing mechanism (3) comprises a rotating shell (301), a servo motor (302), a second bevel gear (303), a second straight gear (304), a connecting disc (305), a second gear ring (306), a fixed shell (307), a clearing scraping blade (308), a compression spring (309), a connecting rod (310), a pull rope (311), a thickness measuring component, a speed reducing component, a second shell (329), a second swinging plate (330) and a guide wheel (331), wherein the upper part of the inner right wall of the rotating shell (301) is provided with the servo motor (302) for providing power through a mounting seat, an output shaft of the servo motor (302) is provided with the second bevel gear (303), the lower part of the inner right wall of the rotating shell (301) is provided with the second bevel gear (303) through a rotating rod in a rotating manner, the two second bevel gears (303) are meshed, and the left part of a rotating rod of the lower side gear (303) is provided with the second straight gear (304), a connecting disc (305) is installed on the left side surface of the rotating shell (301), a second gear ring (306) is fixedly connected to the left side surface of the connecting disc (305), the left part of a rotating rod of a lower-side second bevel gear (303) penetrates through the connecting disc (305) to be rotatably connected with the connecting disc, a second straight gear (304) is located on the inner side of the second gear ring (306), the second straight gear (304) is meshed with the second gear ring (306), a fixed shell (307) is rotatably installed on the left side surface of the second gear ring (306), a plurality of sliding grooves are formed in the circumferential direction of the fixed shell (307), cleaning scrapers (308) are arranged in the plurality of sliding grooves of the fixed shell (307) in a sliding mode, compression springs (309) are fixedly connected between the plurality of cleaning scrapers (308) and the fixed shell (307), a connecting rod (310) is installed in the middle of the fixed shell (307) in a sliding mode, pull ropes (311) are fixedly connected between the inner ends of the plurality of cleaning scrapers (308) and the connecting rod (310), the left part of connecting rod (310) is provided with the thickness measurement subassembly, be provided with the speed reduction subassembly on the thickness measurement subassembly, the lower part rigid coupling of speed reduction subassembly and first casing (1), second casing (329) are installed to the right flank of rotation shell (301), a plurality of second swing board (330) are installed through connecting block (314) rotary type to the lateral wall right part circumference equidistance of second casing (329), leading wheel (331) are installed to the equal rotary type in left part of a plurality of second swing board (330), a plurality of second swing board (330) respectively and the lateral surface of second casing (329) between the rigid coupling have supporting spring.

6. The municipal works sewer pipe cleaning apparatus according to claim 5, wherein: the thickness measuring component comprises a second piston shell (312), a second piston plate (313), a connecting block (314), a T-shaped rod (315), a third bevel gear (316), a third straight gear (317), a third gear ring (318), a second hollow disc (319), a second sliding rod (320), a second contact wheel (321), a second piston rod (3211), an annular ring (322) and a third L-shaped pipe (3221), wherein the second piston shell (312) is rotatably installed on the front side of the right part in the first shell (1) through a fixed rod, the left part of the connecting rod (310) penetrates through the second piston shell (312) to be slidably connected with the second piston shell, the second piston plate (313) is slidably arranged in the second piston shell (312), the left part of the second piston plate (313) is vertically and symmetrically provided with two convex rods, the left part of the outer side surface of the second piston shell (312) is rotatably connected with the connecting block (314), a T-shaped rod (315) is installed on the left side surface of each connecting block (314) through a spring, a support plate is fixedly connected to the right side of the upper portion in the first shell (1), a third bevel gear (316) is installed on the lower portion of the support plate on the first shell (1) in a rotating mode through a rotating rod, the third bevel gear (316) is located on the right side of the first bevel gear (203), the third bevel gear (316) is meshed with the adjacent first bevel gear (203), a third straight gear (317) is installed at the other end of the rotating rod on the third bevel gear (316), a third gear ring (318) is installed on the right side surface of the first shell (1) in a rotating mode, the third straight gear (317) is located on the inner side of the third gear ring (318), the third straight gear (317) is meshed with the third gear ring (318), a second hollow disc (319) is installed on the right side surface of the third gear ring (318), a plurality of second sliding rods (320) are arranged on the second hollow disc (319) in a rotating mode in a circumferential direction at equal intervals, the equal rotary type of outer end of a plurality of second slide bar (320) is installed and is used for measuring second contact wheel (321) of deposit thickness, second piston rod (3211) are all installed to the inner of a plurality of second slide bar (320), the left surface rotary type of set casing (307) is connected with annular ring (322), a plurality of third L venturi tube (3221) have been inlayed to the lateral wall circumference equidistance of annular ring (322), slide respectively in setting up adjacent third L venturi tube (3221) in the inner of a plurality of second piston rod (3211), a plurality of second slide bar (320) respectively and annular ring (322) between the rigid coupling have the spring.

7. The municipal works sewer pipe cleaning apparatus according to claim 5, wherein: the speed reduction assembly comprises a hollow plate (324), a conical plate (325), a mounting plate (327) and a sliding frame (328), the hollow plate (324) is fixedly connected to the front portion and the rear portion of a T-shaped rod (315), outward convex rods are arranged on the upper portions of the front side face and the rear side face of the conical plate (325), the two convex rods of the conical plate (325) are arranged in the two hollow plates (324) in a sliding mode respectively, the mounting plate (327) is embedded into the lower side of the right portion of a first shell (1), the sliding frame (328) is arranged in the mounting plate (327) in a sliding mode respectively, springs used for resetting are fixedly connected between the two sliding frames (328) and the mounting plate (327), the wedge blocks are arranged outside the two sliding frames (328), and the conical plate (325) is in contact fit with the two sliding frames (328).

8. The municipal works sewer pipe cleaning apparatus according to claim 5, wherein: a plurality of groups of hairbrushes are circumferentially arranged on the outer side wall of the rotating shell (301) at equal intervals.

9. The municipal works sewer pipe cleaning apparatus of claim 1, wherein: the device is characterized by further comprising a collecting mechanism (4), the right part of the second shell (329) is provided with the collecting mechanism (4) for cleaning sundries, the collecting mechanism (4) comprises a hollow cylinder (401), a fourth bevel gear (402), a fifth bevel gear (404), a movable frame (405), a round block (406) and a cleaning frame (408), the inner side surface of the second shell (329) is rotatably provided with the hollow cylinder (401), the inner left wall of the hollow cylinder (401) is provided with a right convex column, the left side surface of the hollow cylinder (401) is provided with the fourth bevel gear (402) through a rotating rod, a conveying shaft of the servo motor (302) is provided with the fifth bevel gear (404), the rotating rod on the fourth bevel gear (402) penetrates through a fixed shell (307), the fifth bevel gear (404) is positioned on the upper side of the fourth bevel gear (402), the fifth bevel gear (404) is meshed with the fourth bevel gear (402), the inner side surface of the hollow cylinder (401) and the outer side surface of the convex column are provided with track grooves, a moving frame (405) is arranged in the track groove of the hollow cylinder (401) in a sliding mode, a circular block (406) is installed on the right side face of the convex column on the hollow cylinder (401) in a rotating mode, the track groove is formed in the lower portion of the circular block (406), a cleaning frame (408) is arranged in the track groove of the circular block (406) in a sliding mode, and the moving frame (405) is in sliding fit with the cleaning frame (408).