CN112371258A

CN112371258A - Factory sewer sludge cleaning mechanism

Info

Publication number: CN112371258A
Application number: CN202011408646.5A
Authority: CN
Inventors: 武光
Original assignee: Shandong Tianzhi Information Technology Co ltd
Current assignee: China Construction Third Bureau Green Industry Investment Co Ltd
Priority date: 2020-12-05
Filing date: 2020-12-05
Publication date: 2021-02-19
Anticipated expiration: 2040-12-05
Also published as: CN112371258B

Abstract

The invention discloses a sewer sludge cleaning mechanism for a factory, which comprises a sludge collecting vehicle, a cleaning group and a crushing mechanism, wherein the sludge collecting vehicle is connected with one end of the cleaning group; the other end of the cleaning group is connected with the stirring mechanism; the cleaning group comprises a connecting block, a supporting block I, a supporting block II, a reverse block, an anti-grinding wheel, a gear shaft and a limiting block, wherein two ends of the gear shaft respectively penetrate through two sides of the front end of the connecting block; the supporting block I is positioned at the top of the connecting block; the supporting block II is positioned at the bottom of the connecting block; the anti-grinding wheel is respectively positioned at one end of the supporting block I and one end of the supporting block II, the reverse block is positioned on one side of the top of the connecting block, and a reverse gear is arranged on the reverse block; the middle parts of the two sides of the connecting block are provided with slots; the connecting blocks are connected through a gear shaft; the limiting blocks are positioned at two ends of the bottom of the connecting block. According to the sludge stirring and smashing device, the stirring and smashing mechanism drives the cleaning group to extend into a sewer, and the anti-shaking mechanism prevents the stirring and smashing mechanism from shaking when the sludge is stirred and smashed; the spliced cleaning group solves the problem that manual treatment is inconvenient when the sewer pipe is too narrow and too deep.

Description

Factory sewer sludge cleaning mechanism

Technical Field

The invention belongs to the technical field of sewer dredging, and particularly relates to a sewer sludge cleaning mechanism for a factory.

Background

At present, domestic industries develop rapidly, and further, mass production factories are produced, and most of the factories are built with special sewage sewers in factories, so that the sewers can penetrate through the bottoms of the factories when being built for convenient discharge, and a large amount of sludge can be accumulated in the sewers after being discharged for a certain time, and the sludge can seriously affect the discharge of sewage in the factories. The desilting work of the pipeline among the prior art is mainly accomplished by the manual work, but the sewer in the factory floor is most comparatively narrow, and the sewer that is located the factory building bottom also can't use the excavation and handles, and inconvenient workman handles the silt of sewer, and manual work possess a series of drawbacks simultaneously, for example intensity of labour is high, desilting inefficiency, effect difference etc. consequently, develop one kind very much and need not the manual work and can improve efficient sewer desilting equipment.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a sewer sludge cleaning mechanism for a factory, wherein a stirring mechanism drives a cleaning group to extend into a sewer, and an anti-shaking mechanism is used for preventing the stirring mechanism from shaking when the sludge is stirred; the spliced cleaning group solves the problem that manual treatment is inconvenient when the sewer pipe is too narrow and too deep.

In order to achieve the purpose, the invention adopts the technical scheme that:

a sewer sludge cleaning mechanism for a factory comprises a sludge collecting vehicle, a cleaning group and a crushing mechanism, wherein the sludge collecting vehicle is connected with one end of the cleaning group, and the cleaning group is provided with a plurality of symmetrical cleaning groups; the other end of the cleaning group is connected with the mincing mechanism.

The cleaning group comprises connecting blocks, a supporting block I, a supporting block II, a reverse block, an anti-grinding wheel, a gear shaft, a mud cleaning plate and a limiting block, wherein two ends of the gear shaft respectively penetrate through the left side and the right side of the front end of the connecting blocks, and gears are arranged at two ends of the gear shaft and are positioned between the connecting blocks; the supporting block I is positioned on one side of the top of the connecting block, and an inserting block is arranged at the bottom end of the supporting block I and is connected with the top end of the inserting groove through the inserting block; the supporting block II is positioned on one side of the bottom of the connecting block and corresponds to the supporting block I, and the top end of the supporting block II is provided with an inserting block corresponding to the supporting block I and is connected with the bottom end of the inserting groove through the inserting block; the inserting block is fixed on the connecting block through a bolt; the anti-grinding wheel is respectively positioned at one end of the supporting block I and one end of the supporting block II, the anti-grinding wheel is positioned at one side of the top of the connecting block, and the anti-grinding wheel is provided with an anti-grinding gear; the reverse gear is connected with the chain and limits the chain when in work; the middle parts of two sides of the connecting block are provided with slots in the vertical direction, and two sides of each slot are provided with threaded holes; the connecting blocks are connected through a gear shaft; the limiting blocks are positioned at two ends of the bottom of the connecting block and prevent the cleaning group from being bent reversely to influence chain transmission; the mud cleaning plate is fixedly connected to the chain between the connecting blocks.

The stirring mechanism comprises a stirring shaft, a connecting plate I, a connecting plate II, an anti-shaking mechanism, a placing box and a follow-up motor, wherein the connecting plate I is positioned on the left side of the stirring shaft, a placing groove is formed in the left side of the connecting plate I, a connecting groove is formed in the right side of the connecting plate I, and a limiting block is arranged at the bottom of the rear end of the connecting plate I; the connecting plate II is positioned on the right side of the crushing shaft, a placing groove corresponding to the connecting plate I is formed in the right side of the connecting plate II, and a limiting block corresponding to the connecting plate I is arranged at the bottom of the rear end of the connecting plate II; one end of the crushing shaft is provided with a gear and penetrates through the connecting groove to be connected with the connecting plate I, and the other end of the crushing shaft is connected with the connecting plate II; a plurality of crushing rods are arranged on the crushing shaft, the cross section of each crushing rod is triangular, one end of each crushing rod is fixedly connected with the crushing shaft, and the other end of each crushing rod is bent at a right angle; the two ends of the placing box are respectively connected with the connecting plate I and the connecting plate II, the servo motor is fixed in the placing box, a gear is arranged at the shaft end of a main shaft of the servo motor and is inserted into a connecting groove, and the gear at the shaft end of the servo motor is connected with the mincing shaft through a chain.

Anti-shake mechanism is equipped with a pair ofly and is located the standing groove of connecting plate I and connecting plate II respectively, anti-shake mechanism includes fixed axle, fixed plate, top limit axle, spring, the fixed axle is vertical to be fixed at the standing groove front end, fixed plate one end swing joint fixed axle, top limit axle swing joint is at the fixed plate other end, standing groove and fixed plate are connected respectively at spring position in topside axle one side and both ends.

The sludge collection vehicle comprises a vehicle body, a collection tank, a dredging motor, a protective cover, an anti-splash plate, a support arm and a tail plate, wherein the collection tank is positioned in the middle of the top of the vehicle body; two sides of the rear end of the vehicle body are arc-shaped, and the arc edges are provided with grooves corresponding to the anti-grinding wheels; the supporting arm is positioned on one side of the top of the arc-shaped end of the vehicle body, and the top of the supporting arm is provided with a gear shaft and is connected with the gear shaft through the gear shaft; one end of the tail plate is fixedly connected with the supporting arm, the other end of the tail plate is connected with the cleaning group through a gear shaft, and a limiting block is arranged at the top of the tail plate and corresponds to a limiting block at the bottom of the cleaning group; the splash guard is positioned on one side of the supporting arm at the top of the collecting tank; the protective cover is positioned on one side of the supporting arm; the dredging motor is fixed on the other side of the splash board at the top of the collecting tank on the vehicle body, the main shaft of the dredging motor is positioned in the protective cover, a gear is arranged at the shaft end of the main shaft, and the gear at the shaft end of the dredging motor is connected with the gear at the top of the supporting arm through a synchronous belt.

Compared with the prior art, the invention has the beneficial effects that:

1) the sludge in a sewer can be crushed by the aid of the crushing mechanism, the sludge is loosened by the aid of rotation of the crushing shaft, subsequent treatment is facilitated, and meanwhile the anti-shaking mechanism is arranged on the crushing mechanism, so that the crushing mechanism can be prevented from shifting and shaking in the sludge crushing process, and influence on a cleaning group is avoided;

2) the cleaning group capable of being spliced is arranged, the cleaning group can be spliced as required, the spliced cleaning group can extend into a sewer to treat the deep part of the sewer, and the supporting block I arranged on the cleaning group can prevent a mud cleaning plate from scraping the ground and the inner wall of the sewer when the cleaning group moves.

Drawings

FIG. 1 is a schematic structural diagram of a sewer sludge cleaning mechanism for a factory, which is disclosed by the invention;

FIG. 2 is a sectional view of a structure of a sludge cleaning mechanism of a sewer for a factory, which is disclosed by the invention;

FIG. 3 is a schematic view of the structure of the mashing mechanism of the present invention;

FIG. 4 is a schematic sectional view of the shredder mechanism of the present invention;

FIG. 5 is a schematic view of the cleaning group configuration of the present invention;

FIG. 6 is a schematic view of a cross-section of the cleaning group at the threaded hole in plan view of the invention;

FIG. 7 is a sectional view of a right view slot of the cleaning group of the present invention;

in the figure: 1. a sludge collection vehicle; 11. a vehicle body; 12. collecting tank; 13. a dredging motor; 14. a protective cover; 15. a splash shield; 16. a support arm; 17. a tail plate; 2. cleaning the group; 21. connecting blocks; 211. a slot; 2111. a threaded hole; 22. a supporting block I; 221. inserting a block; 23. a supporting block II; 24. a bit reversal block; 241. a reverse gear; 25. preventing grinding wheel; 26. a gear shaft; 27. cleaning a mud plate; 28. a limiting block; 3. a mincing mechanism; 31. crushing the shaft; 311. a stirring and crushing rod; 32. a connecting plate I; 321. a placement groove; 322. connecting grooves; 33. a connecting plate II; 34. an anti-shake mechanism; 341. a fixed shaft; 342. a fixing plate; 343. a top edge shaft; 344. a spring; 35. placing a box; 36. a servo motor.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 7.

A sewer sludge cleaning mechanism for a factory comprises a sludge collecting vehicle 1, a cleaning group 2 and a crushing mechanism 3, wherein the sludge collecting vehicle 1 is connected with one end of the cleaning group 2, and the cleaning group 2 is provided with a plurality of symmetrical cleaning groups; the other end of the cleaning group 2 is connected with the mincing mechanism 3.

The cleaning group 2 comprises connecting blocks 21, a supporting block I22, a supporting block II 23, a reverse block 24, an anti-abrasion wheel 25, a gear shaft 26, a mud cleaning plate 27 and a limiting block 28, wherein two ends of the gear shaft 26 respectively penetrate through the left side and the right side of the front end of the connecting blocks 21, and gears are arranged at two ends of the gear shaft 26 and are positioned between the connecting blocks 21; the supporting block I22 is located on one side of the top of the connecting block 21, and an inserting block 221 is arranged at the bottom end of the supporting block I22 and is connected with the top end of the inserting groove 211 through the inserting block 221; the supporting block II 23 is located on one side of the bottom of the connecting block 21 and corresponds to the supporting block I22, and the top end of the supporting block II 23 is provided with an inserting block 221 corresponding to the supporting block I22 and is connected with the bottom end of the inserting groove 211 through the inserting block 221; the inserting block 221 is fixed on the connecting block 21 through a bolt; the anti-grinding wheel 25 is respectively positioned at one end of the supporting block I22 and one end of the supporting block II 23, the inversion block 24 is positioned at one side of the top of the connecting block 21, and the inversion gear 241 is arranged on the inversion block 24; the reverse gear 241 is connected with the chain and limits the chain when working; the middle parts of two sides of the connecting block 21 are provided with slots 211 in the up-down direction, and two sides of the slot 211 are provided with threaded holes 2111; the connecting blocks 21 are connected through a gear shaft 26; the limiting blocks 28 are positioned at two ends of the bottom of the connecting block 21, and the limiting blocks 28 prevent the cleaning group 2 from being bent reversely to influence chain transmission; the mud-removing plate 27 is fixedly connected on the chain between the connecting blocks 21.

The stirring mechanism 3 comprises a stirring shaft 31, a connecting plate I32, a connecting plate II 33, an anti-shaking mechanism 34, a placing box 35 and a follow-up motor 36, wherein the connecting plate I32 is positioned on the left side of the stirring shaft 31, a placing groove 321 is formed in the left side of the connecting plate I32, a connecting groove 322 is formed in the right side of the connecting plate I32, and a limiting block 28 is arranged at the bottom of the rear end of the connecting plate I32; the connecting plate II 33 is positioned on the right side of the stirring shaft 31, a placing groove 321 corresponding to the connecting plate I32 is formed in the right side of the connecting plate II 33, and a limiting block 28 corresponding to the connecting plate I32 is arranged at the bottom of the rear end of the connecting plate II 33; one end of the crushing shaft 31 is provided with a gear and penetrates through the connecting groove 322 to be connected with the connecting plate I32, and the other end of the crushing shaft is connected with the connecting plate II 33; a plurality of stirring rods 311 are arranged on the stirring shaft 31, the cross section of each stirring rod 311 is triangular, one end of each stirring rod 311 is fixedly connected with the stirring shaft 31, and the other end of each stirring rod 311 is bent at a right angle; the two ends of the placing box 35 are respectively connected with the connecting plate I32 and the connecting plate II 33, the follow-up motor 36 is fixed in the placing box 35, a gear is arranged at the shaft end of a main shaft of the follow-up motor 36 and is inserted into the connecting groove 322, and the gear at the shaft end of the follow-up motor 36 is connected with the mincing shaft 31 through a chain.

The anti-shake mechanism 34 is provided with a pair of placing grooves 321 which are respectively located in the connecting plate I32 and the connecting plate II 33, the anti-shake mechanism 34 comprises a fixed shaft 341, a fixed plate 342, a top edge shaft 343 and a spring 344, the fixed shaft 341 is vertically fixed at the front end of the placing groove 321, one end of the fixed plate 342 is movably connected with the fixed shaft 341, the top edge shaft 343 is movably connected with the other end of the fixed plate 342, the spring 344 is located on one side of the top edge shaft 343, and two ends of the spring 344 are respectively connected with the placing grooves 321 and the fixed plate.

The sludge collecting vehicle 1 comprises a vehicle body 11, a collecting tank 12, a dredging motor 13, a protective cover 14, a splash guard 15, a supporting arm 16 and a tail plate 17, wherein the collecting tank 12 is positioned in the middle of the top of the vehicle body 11; two sides of the rear end of the vehicle body 11 are arc-shaped, and the arc edges are provided with grooves corresponding to the anti-grinding wheels 25; the supporting arm 16 is positioned on one side of the top of the arc-shaped end of the vehicle body 11, and the top of the supporting arm 16 is provided with a gear shaft 26 and connected through the gear shaft 26; one end of the tail plate 17 is fixedly connected with the supporting arm 16, the other end of the tail plate is connected with the cleaning group 2 through a gear shaft 26, and the top of the tail plate 17 is provided with a limiting block 28 corresponding to the limiting block 28 at the bottom of the cleaning group 2; the splash guard 15 is positioned on one side of a supporting arm 16 at the top of the collecting tank 12; the protective cover 14 is positioned at one side of the supporting arm 16; the dredging motor 13 is fixed on the other side of a splash plate 15 at the top of a collecting tank 12 on the vehicle body 11, a main shaft of the dredging motor 13 is positioned in the protective cover 14, a gear is arranged at the shaft end, and the gear at the shaft end of the dredging motor 13 is connected with a gear at the top of a supporting arm 16 through a synchronous belt.

The utility model provides a mill is with sewer silt clearance mechanism, the working process as follows:

connecting a plurality of cleaning groups with each other and respectively connecting a sludge collecting vehicle and a stirring mechanism, wherein the collecting groups are movably connected with each other through gear shafts, and chains fixed with sludge cleaning plates are connected with each other on the collecting groups; the stirring mechanism is placed in a sewer, and the top side shaft is propped against the two sides of the sewer under the elastic force action of the spring, so that the stirring mechanism is prevented from shaking and deviating in the moving process; the sludge collecting vehicle and the stirring mechanism are started, the follow-up motor provides power for the stirring shaft, sludge is smashed and drives the collecting group to move through the rotation of the stirring rod, meanwhile, the dredging motor is started together to drive the chain on the cleaning group and the sludge cleaning plate to clean the sludge stirred and smashed by the stirring mechanism, and the supporting block I and the anti-abrasion wheel are higher than the sludge cleaning plate, so that the sludge cleaning plate cannot be scraped to the ground and the inner wall of a sewer in the moving and dredging processes of the cleaning group; after the sludge removing plate moves to the supporting arm, the sludge falls into the collecting tank under the action of gravity; after dredging is finished, the sludge collecting vehicle rotates reversely to drive the cleaning group and the crushing mechanism to leave the sewer.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims

1. A sewer sludge cleaning mechanism for a factory comprises a sludge collecting vehicle, a cleaning group and a crushing mechanism, and is characterized in that the sludge collecting vehicle is connected with one end of the cleaning group, and the cleaning group is provided with a plurality of symmetrical cleaning groups; the other end of the cleaning group is connected with the mincing mechanism;

the cleaning group comprises connecting blocks, a supporting block I, a supporting block II, a reverse block, an anti-grinding wheel, a gear shaft, a mud cleaning plate and a limiting block, wherein two ends of the gear shaft respectively penetrate through the left side and the right side of the front end of the connecting blocks, and gears are arranged at two ends of the gear shaft and are positioned between the connecting blocks; the supporting block I is located on one side of the top of the connecting block, and an inserting block is arranged at the bottom end of the supporting block I; the supporting block II is positioned on one side of the bottom of the connecting block and corresponds to the supporting block I, and the top end of the supporting block II is provided with an inserting block corresponding to the supporting block I and is connected with the bottom end of the inserting groove through the inserting block; the inserting block is fixed on the connecting block through a bolt; the anti-grinding wheel is respectively positioned at one end of the supporting block I and one end of the supporting block II, the anti-grinding wheel is positioned at one side of the top of the connecting block, and the anti-grinding wheel is provided with an anti-grinding gear; the reverse gear is connected with the chain and limits the chain when in work; the middle parts of two sides of the connecting block are provided with slots in the vertical direction, and two sides of each slot are provided with threaded holes; the connecting blocks are connected through a gear shaft; the limiting blocks are positioned at two ends of the bottom of the connecting block and prevent the cleaning group from being bent reversely to influence chain transmission; the mud cleaning plate is fixedly connected to the chain between the connecting blocks.

2. The factory sewer sludge cleaning mechanism is characterized in that the stirring mechanism comprises a stirring shaft, a connecting plate I, a connecting plate II, an anti-shaking mechanism, a placing box and a servo motor, wherein the connecting plate I is positioned on the left side of the stirring shaft, a placing groove is formed in the left side of the connecting plate I, a connecting groove is formed in the right side of the connecting plate I, and a limiting block is arranged at the bottom of the rear end of the connecting plate I; the connecting plate II is positioned on the right side of the crushing shaft, a placing groove corresponding to the connecting plate I is formed in the right side of the connecting plate II, and a limiting block corresponding to the connecting plate I is arranged at the bottom of the rear end of the connecting plate II; one end of the crushing shaft is provided with a gear and penetrates through the connecting groove to be connected with the connecting plate I, and the other end of the crushing shaft is connected with the connecting plate II; a plurality of crushing rods are arranged on the crushing shaft, the cross section of each crushing rod is triangular, one end of each crushing rod is fixedly connected with the crushing shaft, and the other end of each crushing rod is bent at a right angle; the two ends of the placing box are respectively connected with the connecting plate I and the connecting plate II, the servo motor is fixed in the placing box, a gear is arranged at the shaft end of a main shaft of the servo motor and is inserted into a connecting groove, and the gear at the shaft end of the servo motor is connected with the mincing shaft through a chain.

3. The factory sewer sludge cleaning mechanism according to claim 2, wherein the anti-shaking mechanism is provided with a pair of placing grooves respectively located in the connecting plate I and the connecting plate II, the anti-shaking mechanism comprises a fixed shaft, a fixed plate, a top edge shaft and a spring, the fixed shaft is vertically fixed at the front end of the placing groove, one end of the fixed plate is movably connected with the fixed shaft, the top edge shaft is movably connected with the other end of the fixed plate, and the spring is located on one side of the top edge shaft and is connected with the placing groove and the fixed plate at two ends respectively.

4. The factory sewer sludge cleaning mechanism according to the claims 1-3, wherein the sludge collection vehicle comprises a vehicle body, a collection tank, a dredging motor, a protective cover, a splash shield, a support arm and a tail plate, wherein the collection tank is positioned in the middle of the top of the vehicle body; two sides of the rear end of the vehicle body are arc-shaped, and the arc edges are provided with grooves corresponding to the anti-grinding wheels; the supporting arm is positioned on one side of the top of the arc-shaped end of the vehicle body, and the top of the supporting arm is provided with a gear shaft and is connected with the gear shaft through the gear shaft; one end of the tail plate is fixedly connected with the supporting arm, the other end of the tail plate is connected with the cleaning group through a gear shaft, and a limiting block is arranged at the top of the tail plate and corresponds to a limiting block at the bottom of the cleaning group; the splash guard is positioned on one side of the supporting arm at the top of the collecting tank; the protective cover is positioned on one side of the supporting arm; the dredging motor is fixed on the other side of the splash board at the top of the collecting tank on the vehicle body, the main shaft of the dredging motor is positioned in the protective cover, a gear is arranged at the shaft end of the main shaft, and the gear at the shaft end of the dredging motor is connected with the gear at the top of the supporting arm through a synchronous belt.