CN115228912A

CN115228912A - Remediation equipment for soil pollution treatment and use method thereof

Info

Publication number: CN115228912A
Application number: CN202210850441.5A
Authority: CN
Inventors: 陈亚兰; 钱伊茵
Original assignee: Huzhou Hefengyuan Environmental Technology Co ltd
Current assignee: Huzhou Hefengyuan Environmental Technology Co ltd
Priority date: 2022-07-19
Filing date: 2022-07-19
Publication date: 2022-10-25

Abstract

The invention discloses a restoring device for soil pollution control and a using method thereof, and relates to the technical field of environmental protection.

Description

Remediation equipment for soil pollution treatment and use method thereof

Technical Field

The invention relates to the technical field of environmental protection, in particular to a restoration device for soil pollution treatment and a use method thereof.

Background

The patent with the application number of CN201910669275.7 discloses remediation equipment for soil pollution treatment and a using method thereof, and the remediation equipment comprises a rack, wherein a spraying device and a smashing device are arranged on the rack, the smashing device comprises a plow harrow mechanism, a soil smashing mechanism and a leveling mechanism, a transmission case is further arranged on the rack and is connected with the plow harrow mechanism through a rotary mechanism, the plow harrow mechanism is connected with the leveling mechanism through a fluted disc which is rotatably connected to the rack through a fixed shaft, the transmission case is connected with the soil smashing mechanism through a transmission rod, the spraying device comprises a water pump and a liquid storage box which are fixed on the rack and further comprises a liquid distributing pipe which is fixed on the plow harrow mechanism, and the inlet and outlet end of the water pump is respectively connected with the liquid storage box and the liquid distributing pipe through hoses. According to the remediation equipment for soil pollution treatment and the use method thereof, the plowing mechanism, the soil crushing mechanism and the leveling mechanism are used for performing soil turning, crushing and leveling treatment on the soil sprayed with the remediation agent, so that the effect of uniformly mixing the remediation agent with the soil is improved, and the working efficiency and the remediation effect on the soil are improved.

However, the soil pollution control remediation device and the use method thereof have some problems, for example, the soil is simply crushed, the soil block is still large, the remediation agent is difficult to completely immerse, the inside of the soil block is often not contacted with the remediation agent, the remediation agent cannot be used for remediation treatment of the soil inside the soil block, the remediation agent is simply sprayed on the soil, the soil and the remediation agent are not mixed and turned over, the soil at the bottom is often not sprayed with the remediation agent, meanwhile, the remediation agent is mostly sprayed out by using a water pump and the like, the remediation agent sprayed out each time is often detected by using electronic elements such as a flow sensor, and the spraying amount of the remediation agent is difficult to accurately control due to errors and the like.

Disclosure of Invention

The application aims to provide a soil pollution treatment restoration device and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a soil pollution administers and uses repair equipment, includes the processing case of scraper and scraper discharge gate intercommunication, the top bolt of processing incasement portion has the liquid reserve tank, the bottom of processing incasement portion is rotated and has been cup jointed crushing rotor, the middle-end rotation of processing incasement portion has cup jointed broken rotor, the inside of liquid reserve tank is rotated and has been cup jointed the bent axle, the middle-end bolt on bent axle surface has little skewed tooth gear, the bent portion of bent axle surface both sides all rotates and has been cup jointed the connecting rod, the bottom of connecting rod articulates there is the cock stem, the opening of liquid reserve tank bottom both sides all communicates the recipient, the bottom intercommunication of recipient spouts the board, the right side bolt of processing case surface top has power mechanism, the left tooth meshing of power mechanism has drive mechanism, drive mechanism and little skewed tooth gear engagement, crushing rotor and broken rotor all with drive mechanism bolt.

Borrow by above-mentioned structure, can carry out thorough smashing to soil through smashing rotor and broken rotor, let the soil after smashing can contact with repair liquid better to the rotation of smashing rotor and broken rotor still can mix soil and repair liquid, let soil and repair liquid fully fuse, make things convenient for repair liquid to restore soil, the fixed capacity who utilizes the recipient can be with repair liquid blowout quantitatively, the convenient blowout volume of controlling repair liquid.

Preferably, the power mechanism comprises a hydraulic cylinder, a U-shaped frame, transmission teeth, connecting teeth and a ratchet wheel, the rear side of the hydraulic cylinder is bolted to the right side of the top end of the surface of the treatment box, the output end of the hydraulic cylinder is bolted to the top end of the U-shaped frame, the right side of the surface of the U-shaped frame is hinged to a hole in the right side of the transmission teeth, the left side of the surface of the U-shaped frame is hinged to a hole in the left side of the connecting teeth, the left end of the transmission teeth is meshed with a ratchet in the right side of the ratchet wheel, the right end of the connecting teeth is meshed with a ratchet in the left side of the ratchet wheel, the power mechanism further comprises a driving assembly in bolted connection with the ratchet wheel, and a limiting assembly is bolted to the surface of the U-shaped frame.

Further, the hydraulic power device of the hydraulic cylinder is switched on, the hydraulic cylinder can drive the U-shaped frame to move downwards, the U-shaped frame can simultaneously drive the transmission teeth and the connecting teeth to move downwards, at the moment, the transmission teeth are limited by the limiting component on the right side, the transmission teeth can be meshed with the ratchets on the right side of the ratchet wheel, the transmission teeth can drive the ratchet wheel to rotate clockwise, the connecting teeth slide on the ratchets on the left side of the ratchet wheel and are driven to rotate upwards, when the hydraulic cylinder drives the U-shaped frame to move upwards, the U-shaped frame drives the transmission teeth and the connecting teeth to move upwards, the left ends of the transmission teeth slide on the ratchets on the right side of the ratchet wheel and are driven to rotate downwards, the connecting teeth are limited by the limiting component on the left side, the connecting teeth can drive the ratchet wheel to rotate clockwise, and the ratchet wheel can be driven to rotate clockwise and unidirectionally.

Preferably, the limiting assembly comprises a limiting block and a limiting spring, the rear side of the limiting block is bolted to the surface of the U-shaped frame, the top end of the limiting spring is bolted to the surface of the U-shaped frame, the top of the transmission gear abuts against the bottom of the right limiting block, the bottom of the connecting gear abuts against the top of the left limiting block, the top of the transmission gear is bolted to the bottom of the right limiting spring, and the top of the connecting gear is bolted to the bottom of the left limiting spring.

Further, the driving tooth is spacing by the stopper on right side, left spacing spring can produce the power way of downward pivoted to connecting the tooth, even if connect the tooth and drive the back that upwards rotates by the ratchet, utilize left spacing spring can be with connecting the tooth and push down until connecting the tooth and offset with left stopper, the spacing spring on right side can produce the power way of upward pivoted to the driving tooth after the driving tooth rotates down, even if the driving tooth drives the back that downwards rotates by the ratchet, utilize the spacing spring on right side can upwards stimulate the driving tooth until the driving tooth offsets with the stopper on right side.

Preferably, the driving assembly comprises a large rotating wheel, a transmission belt, a small rotating wheel and a large inclined fluted disc, the rear side of the ratchet wheel is in bolted connection with the surface of the large rotating wheel, the axis of the large rotating wheel is in rotary connection with the surface of the treatment box, the inside of the large rotating wheel is in transmission connection with the right side inside the transmission belt, the left side inside the transmission belt is in transmission connection with the inside of the small rotating wheel, the rear side of the small rotating wheel is in bolted connection with the surface of the large inclined fluted disc, the axis of the large inclined fluted disc is in rotary connection with the surface of the treatment box, and the large inclined fluted disc is meshed with the transmission mechanism.

Further, the ratchet can drive the bull wheel and rotate, and the bull wheel passes through the bearing and rotates the setting with the processing case, lets the bull wheel can steady rotation, and the bull wheel can drive the drive belt and rotate, and the drive belt can drive the rotation of little runner, and little runner can drive the rotation of big skewed tooth fluted disc, and big skewed tooth fluted disc passes through the bearing and rotates the setting with the processing case, lets the rotation that big skewed tooth fluted disc can be steady, and big skewed tooth fluted disc can drive little skewed tooth fluted disc and rotate.

Preferably, drive mechanism includes little skewed tooth fluted disc, main skewed tooth gear and big skewed tooth gear, the left tooth meshing of tooth and the little skewed tooth fluted disc right side of big skewed tooth fluted disc, the left tooth meshing of tooth and the tooth meshing on main skewed tooth gear right side of little skewed tooth fluted disc, the axle center department of main skewed tooth gear is connected with the surface rotation of handling the case, the axle center department of main skewed tooth gear rear side extends to the inside of liquid reserve tank and with the axle center department bolt of big skewed tooth gear, the tooth meshing of the tooth at big skewed tooth gear top and the tooth of little skewed tooth gear bottom, drive mechanism still includes the transmission assembly with little skewed tooth fluted disc bolt.

Further, big skewed tooth fluted disc and little skewed tooth fluted disc are skewed tooth gear structure, let big skewed tooth fluted disc can mesh with little skewed tooth fluted disc, make things convenient for big skewed tooth fluted disc to drive little skewed tooth fluted disc and rotate, little skewed tooth fluted disc can drive main skewed tooth gear revolve, main skewed tooth gear passes through the bearing and rotates the setting with the processing case, let main skewed tooth gear can steady rotation, the axle center department bolt of main skewed tooth gear has the axostylus axostyle, the rear end of axostylus axostyle extends to the inside of liquid reserve tank and is connected with big skewed tooth gear, let main skewed tooth gear pass through the axostylus axostyle and can drive big skewed tooth gear revolve, big skewed tooth gear and little skewed tooth gear are skewed tooth gear, let big skewed tooth gear can mesh with little skewed tooth gear.

Preferably, transmission assembly includes dwang, big bevel gear and little bevel gear, the top of dwang and the axle center department bolt of little skewed tooth fluted disc bottom, the surface of dwang rotates with the front side of handling the case and cup joints, the bottom of dwang and the axle center department bolt at big bevel gear top, the tooth meshing on the tooth and the little bevel gear surface top of big bevel gear rear side, little bevel gear's rear side bolt has linkage assembly.

Furthermore, the small bevel gear disc can drive the rotating rod to rotate, the rotating rod is rotatably arranged with the treatment box through the bearing, the rotating rod can stably rotate, the rotating rod can drive the large bevel gear to rotate, and the large bevel gear can drive the small bevel gear to rotate.

Preferably, the linkage assembly comprises a large chain wheel, a chain, a main chain wheel and an auxiliary chain wheel, the surface of the large chain wheel is bolted with the rear side of the small bevel gear, the axis of the large chain wheel is rotationally connected with the front side of the treatment box, teeth of the large chain wheel are meshed with the top end inside the chain, the front end of the crushing cutter roller penetrates through a hole in the front side of the treatment box and is bolted with the axis of the main chain wheel, the bottom end inside the chain is meshed with teeth at the bottom of the main chain wheel, the front end of the crushing cutter roller penetrates through a hole in the front side of the treatment box and is bolted with the axis of the auxiliary chain wheel, and the middle end at the bottom of the chain is meshed with teeth at the top of the auxiliary chain wheel.

Further, little bevel gear can drive big sprocket and rotate, big sprocket passes through the bearing and handles the case rotation setting, let big sprocket can steady rotation, big sprocket can drive the chain and rotate, the chain can drive the main chain wheel anticlockwise rotation, the main chain wheel can drive crushing rotor anticlockwise rotation, the chain can drive auxiliary chain wheel clockwise rotation, auxiliary chain wheel can drive broken rotor clockwise rotation, it can carry out the breakage to soil to smash rotor and broken rotor, let soil thoroughly smash, soil and repair liquid can be mixxed to pivoted crushing rotor and broken rotor.

Preferably, crushing rotor comprises bull stick and the surperficial crushing sword of bull stick, crushing rotor comprises pivot and the surperficial crushing sword of pivot, and crushing sword and be the setting of staggering, the quantity of crushing rotor is eight, and the crushing sword between the eight crushing rotor is the dislocation distribution.

Furtherly, the bull stick passes through the bearing and handles the case rotation setting, lets the bull stick can rotate steadily, and the pivot passes through the bearing and handles the case rotation setting, lets the pivot can steady rotation, smashes between the sword, all be crisscross distribution between sword and the broken sword, conveniently smashes sword and broken sword and smashes soil, smashes the rotor roller and can smash soil effectively.

Preferably, the curved parts of the two sides of the surface of the crankshaft are of U-shaped structures, the plug rod is composed of a slide rod, a hole plate at the bottom end of the slide rod and a rubber sheet at the middle end of the bottom of the hole plate, the surface of the slide rod is connected with a slide sleeve in a sliding mode, the rear side of the slide sleeve is bolted to the inside of the liquid storage box, the hole plate and the rubber sheet are matched with the inside of an extrusion cylinder in size, the inside of the extrusion cylinder corresponds to the bottom end of the surface of the plug rod, and the spray plate is bolted to a treatment box.

Further, the slide bar of cock stem slides spacingly through the sliding sleeve, let reciprocating that the cock stem can be steady, let the business turn over recipient that the cock stem can be steady, when the recipient is crowded to the cock stem, the sheet rubber is driven by orifice plate and slide bar and is removed downwards, and the sheet rubber carries out the shutoff to the hole of orifice plate, let the sheet rubber can crowd the inside restoration liquid of recipient downwards, when the cock stem rebound, sheet rubber and recipient inner wall friction, the removal of sheet rubber lags behind the orifice plate, and the sheet rubber can warp at the removal in-process, let restoration liquid can get into the recipient through the hole of orifice plate, the inside restoration liquid of liquid reserve tank can get into the inside of recipient on right side, then extrude downwards by the cock stem, adopt the check valve between recipient and the spout the board, avoid spouting the inside liquid of board reverse entering recipient.

The invention also provides a use method of the remediation equipment for soil pollution treatment, which comprises the following steps:

s1: pouring the repairing liquid into the liquid storage tank, moving the scraper and the treatment tank to a land block to be repaired, and bringing the surface soil into the treatment tank by the scraper;

s2: the power mechanism can drive the main chain wheel and the auxiliary chain wheel to rotate through the transmission mechanism, the main chain wheel and the auxiliary chain wheel respectively drive the crushing knife roll and the crushing knife roll to rotate, and the crushing knife roll are utilized to crush soil;

s3: the power mechanism can drive the small helical gear to rotate through the transmission mechanism, the small helical gear can drive the connecting rod to rotate through the crankshaft, the connecting rod can quantitatively extrude the repair liquid in the extrusion cylinder through the plug rod, and the repair liquid is sprayed to the crushed soil through the spray plate;

s4: the crushing knife roller drives the soil to move out of the treatment box by utilizing the rotation of the crushing knife roller, and then the soil is paved on the ground again.

In conclusion, the technical effects and advantages of the invention are as follows:

1. the power mechanism can drive the transmission mechanism to rotate, the transmission mechanism can drive the crushing knife roll and the crushing knife roll to rotate, and the crushing knife roll are utilized to crush and stir soil;

2. the power mechanism can drive the small helical gear to rotate through the transmission mechanism, the small helical gear can drive the connecting rod to rotate through the crankshaft, the connecting rod can quantitatively extrude the repair liquid in the extrusion cylinder through the plug rod, and the repair liquid is sprayed to the crushed soil through the spray plate;

can carry out thorough crushing to soil through smashing rotor and broken rotor, let the soil after smashing contact with repair liquid better to the rotation of smashing rotor and broken rotor still can mix soil and repair liquid, lets soil and repair liquid can fully fuse, makes things convenient for repair liquid to restore soil, utilizes the fixed capacity of recipient can be quantitatively with repair liquid blowout, conveniently controls repair liquid's blowout volume.

Drawings

FIG. 1 is a schematic front view of an embodiment of the present application;

FIG. 2 is a schematic view of the internal structure of a treatment tank according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a power mechanism according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a U-shaped frame according to an embodiment of the present application;

FIG. 5 is a rear view of a crankshaft according to an embodiment of the present disclosure;

FIG. 6 is a schematic top view of a crushing roller according to an embodiment of the present disclosure;

FIG. 7 is a perspective view of a belt according to an embodiment of the present application;

fig. 8 is a schematic perspective view of a U-shaped frame according to an embodiment of the present application.

In the figure: 1. a scraper; 2. a power mechanism; 21. a hydraulic cylinder; 22. a U-shaped frame; 23. a transmission gear; 24. a connecting tooth; 25. a ratchet wheel; 26. a large rotating wheel; 27. a transmission belt; 28. a small rotating wheel; 29. a large inclined fluted disc; 3. a transmission mechanism; 31. a small inclined fluted disc; 32. a main helical gear; 33. a large helical gear; 34. rotating the rod; 35. a large bevel gear; 36. a small bevel gear; 37. a large sprocket; 38. a chain; 4. a treatment tank; 5. a liquid storage tank; 6. a main sprocket; 7. a crushing knife roll; 8. a secondary sprocket; 9. crushing a cutter roller; 10. a small helical gear; 11. a crankshaft; 12. a connecting rod; 13. a plug rod; 14. an extrusion cylinder; 15. and (5) spraying the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-8, this embodiment provides a soil pollution control remediation device, which includes a processing box 4 communicated with the discharge ports of a shovel 1 and the shovel 1, a liquid storage box 5 is bolted to the top end inside the processing box 4, a crushing cutter roll 7 is rotatably sleeved to the bottom end inside the processing box 4, a crushing cutter roll 9 is rotatably sleeved to the middle end inside the processing box 4, a crankshaft 11 is rotatably sleeved to the inside of the liquid storage box 5, a small helical gear 10 is bolted to the middle end on the surface of the crankshaft 11, a connecting rod 12 is rotatably sleeved to the curved portions on both sides of the surface of the crankshaft 11, a plug rod 13 is hinged to the bottom end of the connecting rod 12, squeezing barrels 14 are communicated to the openings on both sides of the bottom of the liquid storage box 5, a spray plate 15 is communicated to the bottom of the squeezing barrels 14, a power mechanism 2 is bolted to the right side of the top end of the surface of the processing box 4, a transmission mechanism 3 is engaged to the left teeth of the power mechanism 2, the transmission mechanism 3 is engaged with the small helical gear 10, and the crushing cutter roll 7 and the crushing cutter roll 9 are both bolted to the transmission mechanism 3.

Borrow by above-mentioned mechanism, repair liquid pours into the inside of liquid reserve tank 5, remove scraper 1 and processing case 4 to the parcel that needs to be restoreed, scraper 1 adopts scraper or single bucket loader, utilize sword shape or bucket shape equipment to cut soil, scraper and fortune soil, scraper 1 brings the soil on top layer into the inside of processing case 4, power unit 2 can drive little skewed tooth gear 10 through drive mechanism 3 and rotate, little skewed tooth gear 10 can drive bent axle 11 and rotate, bent axle 11 passes through the bearing and rotates with liquid reserve tank 5 and set up, let bent axle 11 rotate steadily, bent axle 11 utilizes its structure to drive left connecting rod 12 upward movement at first, then drive right connecting rod 12 downward movement, connecting rod 12 can drive cock stem 13 and reciprocate, repair liquid inside liquid reserve tank 5 can get into the inside of extrusion cylinder 14 on right side, then be extruded downwards by cock stem 13, adopt the check valve between extrusion cylinder 14 and the spray board 15, avoid spouting the liquid inside of board 15 to get into extrusion cylinder 14, repair liquid spouts to the inside transmission case 4 through spouting board, can drive the drive, can drive the crushing cutter 7 that drives crushing roller 9 rotates with crushing mechanism, smash soil crushing roller and grind the rotation of soil.

Can carry out thorough crushing to soil through smashing rotor 7 and broken rotor 9, let the soil after smashing can be better with repair liquid contact to the rotation of smashing rotor 7 and broken rotor 9 still can mix soil and repair liquid, let soil and repair liquid can fully fuse, make things convenient for repair liquid to restore soil, utilize 14 fixed capacity of recipient can be quantitatively with repair liquid blowout, conveniently control repair liquid's blowout volume.

As a preferred embodiment of this embodiment, as shown in fig. 3, the power mechanism 2 includes a hydraulic cylinder 21, a U-shaped frame 22, a driving tooth 23, a connecting tooth 24 and a ratchet 25, wherein the rear side of the hydraulic cylinder 21 is bolted to the right side of the top end of the surface of the treatment tank 4, the output end of the hydraulic cylinder 21 is bolted to the top end of the U-shaped frame 22, the right side of the surface of the U-shaped frame 22 is hinged to the hole on the right side of the driving tooth 23, the left side of the surface of the U-shaped frame 22 is hinged to the hole on the left side of the connecting tooth 24, the left end of the driving tooth 23 is meshed with the ratchet on the right side of the ratchet 25, the right end of the connecting tooth 24 is meshed with the ratchet on the left side of the ratchet 25, the power mechanism 2 further includes a driving component bolted to the ratchet 25, and the surface of the U-shaped frame 22 is bolted to a limiting component.

The hydraulic power equipment of the hydraulic cylinder 21 is switched on, the hydraulic cylinder 21 can drive the U-shaped frame 22 to move downwards, the U-shaped frame 22 can simultaneously drive the transmission teeth 23 and the connecting teeth 24 to move downwards, at this time, the transmission teeth 23 are limited by the limiting component on the right side, the transmission teeth 23 can be meshed with the ratchets on the right side of the ratchet wheel 25, the transmission teeth 23 can drive the ratchet wheel 25 to rotate clockwise, the connecting teeth 24 slide on the ratchets on the left side of the ratchet wheel 25 and are driven to rotate upwards, when the hydraulic cylinder 21 drives the U-shaped frame 22 to move upwards, the U-shaped frame 22 drives the transmission teeth 23 and the connecting teeth 24 to move upwards, the left ends of the ratchet teeth 23 slide on the right side of the ratchet wheel 25 and are driven to rotate downwards, the connecting teeth 24 are limited by the limiting component on the left side, the connecting teeth 24 can drive the ratchet wheel 25 to rotate clockwise, the ratchet wheel 25 can be driven to rotate in a single direction, the up-and down linear motion of the hydraulic cylinder 21 and the U-shaped frame 22 can be converted into curved rotation of the ratchet wheel 25, and the ratchet wheel 25 can continuously rotate in a single direction.

In this embodiment, as shown in fig. 4, the limiting component includes limiting block and limiting spring, the rear side of limiting block is bolted with the surface of U type frame 22, the top of limiting spring is bolted with the surface of U type frame 22, the top of driving tooth 23 offsets with the bottom of right side limiting block, the bottom of connecting tooth 24 offsets with the top of left side limiting block, the top of driving tooth 23 offsets with the bottom of right side limiting spring, the top of connecting tooth 24 and the bottom of left side limiting spring are bolted.

The driving tooth 23 is spacing by the stopper on right side, left limit spring can produce the power way of downward rotation to connecting tooth 24, even if connect tooth 24 and drive the back that upwards rotates by the ratchet 25, utilize left limit spring can be with connecting tooth 24 extrusion down until connecting tooth 24 and left stopper offset, the limit spring on right side can produce the power of upward rotation to driving tooth 23 after driving tooth 23 rotates down, even if driving tooth 23 is driven the back that downwards rotates by the ratchet 25, utilize the limit spring on right side can upwards stimulate driving tooth 23 until driving tooth 23 offsets with the stopper on right side.

In this embodiment, as shown in fig. 3, the driving assembly includes a large wheel 26, a transmission belt 27, a small wheel 28 and a large bevel gear plate 29, the rear side of the ratchet 25 is bolted to the surface of the large wheel 26, the axial center of the large wheel 26 is rotationally connected to the surface of the processing box 4, the inside of the large wheel 26 is drivingly connected to the right side of the inside of the transmission belt 27, the left side of the inside of the transmission belt 27 is drivingly connected to the inside of the small wheel 28, the rear side of the small wheel 28 is bolted to the surface of the large bevel gear plate 29, the axial center of the large bevel gear plate 29 is rotationally connected to the surface of the processing box 4, and the large bevel gear plate 29 is meshed with the transmission mechanism 3.

The ratchet 25 can drive the bull wheel 26 and rotate, the bull wheel 26 passes through the bearing and rotates the setting with processing case 4, let the bull wheel 26 can rotate steadily, the bull wheel 26 can drive the rotation of drive belt 27, drive belt 27 can drive little runner 28 and rotate, little runner 28 can drive big skewed tooth dish 29 and rotate, big skewed tooth dish 29 passes through the bearing and rotates the setting with processing case 4, let big skewed tooth dish 29 can rotate steadily, big skewed tooth dish 29 can drive little skewed tooth dish 31 and rotate.

In this embodiment, as shown in fig. 1, the transmission mechanism 3 includes a small helical gear disc 31, a main helical gear 32, and a large helical gear 33, wherein teeth on the left side of the large helical gear disc 29 are engaged with teeth on the right side of the small helical gear disc 31, teeth on the left side of the small helical gear disc 31 are engaged with teeth on the right side of the main helical gear 32, an axial center of the main helical gear 32 is rotatably connected to a surface of the treatment tank 4, an axial center of the rear side of the main helical gear 32 extends into the liquid storage tank 5 and is bolted to an axial center of the large helical gear 33, teeth on the top of the large helical gear 33 are engaged with teeth on the bottom of the small helical gear 10, and the transmission mechanism 3 further includes a transmission component bolted to the small helical gear disc 31.

Big skewed tooth fluted disc 29 and little skewed tooth fluted disc 31 are skewed tooth gear structure, let big skewed tooth fluted disc 29 can mesh with little skewed tooth fluted disc 31, make things convenient for big skewed tooth fluted disc 29 to drive little skewed tooth fluted disc 31 and rotate, little skewed tooth fluted disc 31 can drive main skewed tooth gear 32 and rotate, main skewed tooth gear 32 passes through the bearing and rotates the setting with processing case 4, let main skewed tooth gear 32 can rotate steadily, the axle center department bolt of main skewed tooth gear 32 has the axostylus axostyle, the rear end of axostylus axostyle extends to the inside of liquid reserve tank 5 and is connected with big skewed tooth gear 33, let main skewed tooth gear 32 can drive big skewed tooth gear 33 through the axostylus axostyle and rotate, big skewed tooth gear 33 and little skewed tooth gear 10 are skewed tooth gears, let big skewed tooth gear 33 can mesh with little skewed tooth gear 10, and big skewed tooth fluted disc 29 and little skewed tooth fluted disc 31 are the cross connection, be the cross connection between little skewed tooth fluted disc 31 and the main skewed tooth gear 32.

In this embodiment, as shown in fig. 1, the transmission assembly includes a rotating rod 34, a large bevel gear 35 and a small bevel gear 36, the top end of the rotating rod 34 is bolted to the axis of the bottom of the small bevel gear 31, the surface of the rotating rod 34 is rotatably sleeved to the front side of the treatment chamber 4, the bottom end of the rotating rod 34 is bolted to the axis of the top of the large bevel gear 35, the teeth on the rear side of the large bevel gear 35 are engaged with the teeth on the top end of the surface of the small bevel gear 36, and the rear side of the small bevel gear 36 is bolted to the linkage assembly.

Little skewed tooth fluted disc 31 can drive dwang 34 and rotate, and dwang 34 passes through the bearing and handles case 4 rotation setting, lets dwang 34 can rotate steadily, avoids dwang 34 to rotate the in-process skew appearing, and dwang 34 can drive big bevel gear 35 and rotate, and big bevel gear 35 and little bevel gear 36 are conical gear, lets big bevel gear 35 can mesh with little bevel gear 36, and big bevel gear 35 can drive little bevel gear 36 and rotate.

In this embodiment, as shown in fig. 1, the linkage assembly includes a large sprocket 37, a chain 38, a main sprocket 6 and a sub sprocket 8, the surface of the large sprocket 37 is bolted to the rear side of the small bevel gear 36, the axial center of the large sprocket 37 is rotationally connected to the front side of the treatment tank 4, the teeth of the large sprocket 37 are engaged with the top end of the inside of the chain 38, the front end of the crushing cutter roll 7 is bolted to the axial center of the main sprocket 6 through the hole of the front side of the treatment tank 4, the bottom end of the inside of the chain 38 is engaged with the teeth of the bottom of the main sprocket 6, the front end of the crushing cutter roll 9 is bolted to the axial center of the sub sprocket 8 through the hole of the front side of the treatment tank 4, and the middle end of the bottom of the chain 38 is engaged with the teeth of the top of the sub sprocket 8.

Little bevel gear 36 can drive big sprocket 37 and rotate, big sprocket 37 passes through the bearing and rotates the setting with handling case 4, let big sprocket 37 can rotate steadily, big sprocket 37 can drive chain 38 and rotate, chain 38 can drive the rotation of main sprocket 6, main sprocket 6 can drive crushing rotor 7 and rotate, chain 38 can drive auxiliary sprocket 8 and rotate, auxiliary sprocket 8 can drive broken rotor 9 and rotate, it can be broken to smash rotor 7 and broken rotor 9 soil, let soil thoroughly smash, soil and repair fluid can be stirred to pivoted crushing rotor 7 and broken rotor 9.

In this embodiment, as shown in fig. 6, the crushing cutter rollers 7 are composed of a rotating rod and crushing cutters on the surface of the rotating rod, the crushing cutter rollers 9 are composed of a rotating shaft and crushing cutters on the surface of the rotating shaft, the crushing cutters and the crushing cutters are arranged in a staggered manner, the number of the crushing cutter rollers 7 is eight, and the crushing cutters between the eight crushing cutter rollers 7 are distributed in a staggered manner.

The bull stick passes through the bearing and rotates the setting with handling case 4, lets the bull stick can rotate steadily, and the pivot passes through the bearing and rotates the setting with handling case 4, lets the pivot can steady rotation, smashes between the sword, all be the staggered distribution between sword and the broken sword, conveniently smashes sword and broken sword and smashes soil, smashes rotor 7 can smash soil effectively.

In this embodiment, as shown in fig. 5, the curved portions on both sides of the surface of the crankshaft 11 are U-shaped, the plug 13 is composed of a slide rod, a hole plate at the bottom end of the slide rod, and a rubber sheet at the middle end of the bottom of the hole plate, the surface of the slide rod is slidably connected with a slide sleeve, the rear side of the slide sleeve is bolted to the inside of the liquid storage tank 5, the sizes of the hole plate and the rubber sheet are all adapted to the size of the inside of the extrusion cylinder 14, the inside of the extrusion cylinder 14 corresponds to the bottom end of the surface of the plug 13, and the spray plate 15 is bolted to the treatment tank 4.

The slide bar of gag lever post 13 slides spacingly through the sliding sleeve, let gag lever post 13 can be steady reciprocate, let gag lever post 13 business turn over recipient 14 that can be steady, when gag lever post 13 extrudes recipient 14, the sheet rubber is driven by orifice plate and slide bar and moves down, and the sheet rubber blocks up the hole of orifice plate, let the sheet rubber can extrude the inside restoration liquid of recipient 14 downwards, when gag lever post 13 rebound, the sheet rubber rubs with recipient 14 inner wall, the removal of sheet rubber lags behind the orifice plate, and the sheet rubber can warp at the removal in-process, let restoration liquid can get into recipient 14 through the hole of orifice plate, the inside restoration liquid of liquid reserve tank 5 can get into the inside of recipient 14 on right side, then be extruded downwards by gag lever post 13, adopt the check valve between recipient 14 and the spout board 15, avoid spouting the inside liquid of board 15 reverse entering recipient 14.

s1: pouring the repairing liquid into the liquid storage tank 5, moving the scraper 1 and the treatment tank 4 to a land block to be repaired, and bringing the soil on the surface layer into the treatment tank 4 by the scraper 1;

s2: the power mechanism 2 can drive the main chain wheel 6 and the auxiliary chain wheel 8 to rotate through the transmission mechanism 3, the main chain wheel 6 and the auxiliary chain wheel 8 respectively drive the crushing knife roller 7 and the crushing knife roller 9 to rotate, and the crushing knife roller 7 and the crushing knife roller 9 are utilized to crush soil;

s3: the power mechanism 2 can drive the small helical gear 10 to rotate through the transmission mechanism 3, the small helical gear 10 can drive the connecting rod 12 to rotate through the crankshaft 11, the connecting rod 12 can quantitatively extrude the repair liquid in the extrusion cylinder 14 through the plug rod 13, and the repair liquid is sprayed to the crushed soil through the spraying plate 15;

s4: the crushing knife roller 7 drives the soil to move out of the treatment box 4 by using the rotation of the crushing knife roller, and then the soil is paved on the ground again.

The working principle is as follows: the repairing liquid is poured into the liquid storage tank 5, the scraper 1 and the treatment tank 4 are moved to a land block needing repairing, the scraper 1 adopts a scraper or a single bucket loader, a knife-shaped or bucket-shaped working device is used for cutting, shoveling and carrying soil, and the scraper 1 brings the soil on the surface layer into the treatment tank 4.

The hydraulic power device of the hydraulic cylinder 21 is connected, the hydraulic cylinder 21 can drive the U-shaped frame 22 to move downwards, the U-shaped frame 22 can simultaneously drive the transmission teeth 23 and the connecting teeth 24 to move downwards, at this time, the transmission teeth 23 are limited by the limit blocks on the right side, the transmission teeth 23 can be meshed with the ratchets on the right side of the ratchet wheel 25, the transmission teeth 23 can drive the ratchet wheel 25 to rotate clockwise, the connecting teeth 24 slide on the ratchets on the left side of the ratchet wheel 25 and are driven to rotate upwards, the limit springs on the left side can generate downward rotating force to the connecting teeth 24, even if the connecting teeth 24 are driven to rotate upwards by the ratchet wheel 25, the connecting teeth 24 can be extruded downwards by the limit springs on the left side until the connecting teeth 24 abut against the limit blocks on the left side, when the hydraulic cylinder 21 drives the U-shaped frame 22 to move upwards, the U-shaped frame 22 drives the transmission teeth 23 and the connecting teeth 24 to move upwards, the left end of the transmission tooth 23 slides on the ratchet on the right side of the ratchet wheel 25 and is driven to rotate the transmission tooth 23 downwards, the limit spring on the right side can generate upward rotating force to the transmission tooth 23 after the transmission tooth 23 rotates downwards, even if the transmission tooth 23 is driven to rotate downwards by the ratchet wheel 25, the limit spring on the right side can be used for pulling the transmission tooth 23 upwards until the transmission tooth 23 offsets with the limit block on the right side, the connecting tooth 24 is limited by the limit block on the left side, so that the connecting tooth 24 can drive the ratchet wheel 25 to rotate clockwise, so as to drive the ratchet wheel 25 to rotate clockwise and unidirectionally, the ratchet wheel 25 can drive the large rotating wheel 26 to rotate clockwise, the large rotating wheel 26 is rotatably arranged with the processing box 4 through a bearing, the large rotating wheel 26 can rotate stably, the large rotating wheel 26 can drive the transmission belt 27 to rotate clockwise, the transmission belt 27 can drive the small rotating wheel 28 to rotate, and the small rotating wheel 28 can drive the large inclined fluted disc 29 to rotate, big skewed tooth fluted disc 29 passes through the bearing and rotates the setting with processing case 4, lets big skewed tooth fluted disc 29 can rotate steadily, and big skewed tooth fluted disc 29 and little skewed tooth fluted disc 31 are skewed tooth gear structure, lets big skewed tooth fluted disc 29 can mesh with little skewed tooth fluted disc 31, makes things convenient for big skewed tooth fluted disc 29 to drive little skewed tooth fluted disc 31 and rotates.

Little skewed tooth disc 31 can drive main skewed tooth gear 32 and rotate, main skewed tooth gear 32 passes through the bearing and rotates the setting with handling case 4, let main skewed tooth gear 32 can rotate steadily, the axle center department bolt of main skewed tooth gear 32 has the axostylus axostyle, the rear end of axostylus axostyle extends to the inside of liquid reserve tank 5 and is connected with big skewed tooth gear 33, let main skewed tooth gear 32 can drive big skewed tooth gear 33 through the axostylus axostyle and rotate, big skewed tooth gear 33 and little skewed tooth gear 10 are the skewed tooth gear, let big skewed tooth gear 33 can mesh with little skewed tooth gear 10.

Big skewed tooth gear 33 can drive little skewed tooth gear 10 on the bent axle 11 and rotate, little skewed tooth gear 10 can drive bent axle 11 and rotate, bent axle 11 passes through the bearing and rotates the setting with liquid reserve tank 5, let bent axle 11 can rotate steadily, bent axle 11 utilizes its structure to drive left connecting rod 12 rebound earlier, then drive the connecting rod 12 downshifting on right side, connecting rod 12 can drive cock stem 13 and reciprocate, the slide bar of cock stem 13 slides spacingly through the sliding sleeve, let cock stem 13 can steady reciprocating, let cock stem 13 can steady business turn over recipient 14, when cock stem 13 squeezes recipient 14, the sheet rubber is driven downshifting by orifice plate and slide bar, and the sheet rubber blocks off the hole of orifice plate, let the sheet rubber can crowd the inside restoration liquid of recipient 14 downwards.

When stopper rod 13 rebound, the sheet rubber rubs with 14 inner walls of recipient, the removal of sheet rubber lags behind the orifice plate, and the sheet rubber can warp at the removal in-process, let repair liquid can get into recipient 14 through the hole of orifice plate, the inside repair liquid of liquid reserve tank 5 can get into the inside of recipient 14 on right side, then extrude downwards by stopper rod 13, recipient 14 and spout adopt the check valve between the board 15, avoid spouting the reverse recipient 14 of getting into of the inside liquid of board 15, repair liquid spouts the soil to handling the inside bottom of case 4 through spouting board 15.

Little skewed tooth disc 31 can drive dwang 34 and rotate, dwang 34 passes through the bearing and handles case 4 rotation setting, let dwang 34 can rotate steadily, dwang 34 can drive big bevel gear 35 and rotate, big bevel gear 35 can drive little bevel gear 36 anticlockwise rotation, little bevel gear 36 can drive big sprocket 37 anticlockwise rotation, big sprocket 37 passes through the bearing and handles case 4 rotation setting, let big sprocket 37 can rotate steadily, big sprocket 37 can drive chain 38 anticlockwise rotation, chain 38 can drive main sprocket 6 anticlockwise rotation, main sprocket 6 can drive crushing rotor 7 anticlockwise rotation, chain 38 can drive auxiliary sprocket 8 clockwise rotation, auxiliary sprocket 8 can drive crushing rotor 9 clockwise rotation, crushing rotor 7 and crushing rotor 9 can carry out the breakage to soil, let soil thoroughly smash, soil and repair liquid can be mixxed to pivoted crushing rotor 7 and crushing rotor 9.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a soil pollution administers and uses repair equipment, includes processing case (4) of scraper (1) and scraper (1) discharge gate intercommunication, its characterized in that, the top bolt of processing case (4) inside has liquid reserve tank (5), the bottom of processing case (4) inside rotates and has cup jointed crushing rotor (7), the middle-end of processing case (4) inside rotates and has cup jointed crushing rotor (9), the inside of liquid reserve tank (5) rotates and has cup jointed bent axle (11), the middle-end bolt on bent axle (11) surface has connect little skewed tooth gear (10), the bent portion of bent axle (11) surface both sides all rotates and has cup jointed connecting rod (12), the bottom of connecting rod (12) articulates there is gag lever post (13), the opening of liquid reserve tank (5) bottom both sides all communicates has squeeze tube (14), the bottom intercommunication of squeeze tube (14) has spout board (15), the right side bolt on processing case (4) surface top has connected power mechanism (2), power mechanism (2) tooth meshing has left drive mechanism (3), with transmission mechanism (3) and little skewed tooth gear (7) meshing mechanism (7) and crushing rotor (7) all mesh.

2. A soil pollution treatment remediation device as claimed in claim 1, wherein the power mechanism (2) comprises a hydraulic cylinder (21), a U-shaped frame (22), transmission teeth (23), connecting teeth (24) and a ratchet wheel (25), the rear side of the hydraulic cylinder (21) is bolted to the right side of the top end of the surface of the treatment tank (4), the output end of the hydraulic cylinder (21) is bolted to the top end of the U-shaped frame (22), the right side of the surface of the U-shaped frame (22) is hinged to a hole on the right side of the transmission teeth (23), the left side of the surface of the U-shaped frame (22) is hinged to a hole on the left side of the connecting teeth (24), the left end of the transmission teeth (23) is meshed to the right side of the ratchet wheel (25), the right end of the connecting teeth (24) is meshed to a ratchet wheel on the left side of the ratchet wheel (25), the power mechanism (2) further comprises a driving component which is bolted to the ratchet wheel (25), and a limiting component is bolted to the surface of the U-shaped frame (22).

3. The remediation device for soil pollution remediation according to claim 2, wherein the limiting assembly comprises a limiting block and a limiting spring, the rear side of the limiting block is bolted to the surface of the U-shaped frame (22), the top end of the limiting spring is bolted to the surface of the U-shaped frame (22), the top of the transmission tooth (23) abuts against the bottom of the right limiting block, the bottom of the connecting tooth (24) abuts against the top of the left limiting block, the top of the transmission tooth (23) is bolted to the bottom of the right limiting spring, and the top of the connecting tooth (24) is bolted to the bottom of the left limiting spring.

4. A soil pollution treatment remediation device as claimed in claim 2 wherein the drive assembly comprises a large wheel (26), a transmission belt (27), a small wheel (28) and a large skewed tooth disc (29), the rear side of the ratchet wheel (25) is bolted to the surface of the large wheel (26), the axis of the large wheel (26) is in rotational connection with the surface of the treatment tank (4), the inside of the large wheel (26) is in transmission connection with the right side of the inside of the transmission belt (27), the left side of the inside of the transmission belt (27) is in transmission connection with the inside of the small wheel (28), the rear side of the small wheel (28) is bolted to the surface of the large skewed tooth disc (29), the axis of the large skewed tooth disc (29) is in rotational connection with the surface of the treatment tank (4), and the large skewed tooth disc (29) is meshed with the transmission mechanism (3).

5. The soil pollution remediation device as recited in claim 4, wherein the transmission mechanism (3) comprises a small helical gear plate (31), a main helical gear (32) and a large helical gear (33), wherein teeth on the left side of the large helical gear plate (29) are engaged with teeth on the right side of the small helical gear plate (31), teeth on the left side of the small helical gear plate (31) are engaged with teeth on the right side of the main helical gear (32), the axial center of the main helical gear (32) is rotatably connected with the surface of the treatment tank (4), the axial center of the rear side of the main helical gear (32) extends into the liquid storage tank (5) and is bolted to the axial center of the large helical gear (33), teeth on the top of the large helical gear (33) are engaged with teeth on the bottom of the small helical gear (10), and the transmission mechanism (3) further comprises a transmission component bolted to the small helical gear plate (31).

6. The soil pollution administers and uses prosthetic devices of claim 5, characterized in that, drive assembly includes dwang (34), big bevel gear (35) and little bevel gear (36), the top of dwang (34) and the axle center department bolt of little skewed tooth fluted disc (31) bottom, the surface of dwang (34) and the front side of handling case (4) are changeed and are cup jointed, the bottom of dwang (34) and the axle center department bolt at big bevel gear (35) top, the tooth of big bevel gear (35) rear side and the tooth meshing of little bevel gear (36) surface top, the rear side bolt of little bevel gear (36) has linkage assembly.

7. A soil pollution remediation device as claimed in claim 6 wherein the linkage assembly comprises a large sprocket (37), a chain (38), a main sprocket (6) and a secondary sprocket (8), the surface of the large sprocket (37) being bolted to the rear side of the small bevel gear (36), the large sprocket (37) being pivotally connected at its axis to the front side of the treatment tank (4), the teeth of the large sprocket (37) engaging with the top of the interior of the chain (38), the crushing roller (7) having its front end passing through the aperture in the front side of the treatment tank (4) and being bolted to the axis of the main sprocket (6), the bottom of the interior of the chain (38) engaging with the teeth at the bottom of the main sprocket (6), the crushing roller (9) having its front end passing through the aperture in the front side of the treatment tank (4) and being bolted to the axis of the secondary sprocket (8), the middle of the bottom of the chain (38) engaging with the teeth at the top of the secondary sprocket (8).

8. The soil pollution treatment restoration equipment according to claim 1, wherein the crushing knife rolls (7) are composed of rotating rods and crushing knives on the surfaces of the rotating rods, the crushing knife rolls (9) are composed of rotating shafts and crushing knives on the surfaces of the rotating shafts, the crushing knives and the crushing knives are arranged in a staggered mode, the number of the crushing knife rolls (7) is eight, and the crushing knives among the eight crushing knife rolls (7) are distributed in a staggered mode.

9. A soil pollution abatement remediation equipment according to claim 1 wherein the curves on both sides of the surface of the crankshaft (11) are U-shaped, the stopper rod (13) is composed of a slide rod, a perforated plate at the bottom end of the slide rod and a rubber sheet at the middle end of the bottom of the perforated plate, a slide sleeve is slidably connected to the surface of the slide rod, the rear side of the slide sleeve is bolted to the inside of the liquid storage tank (5), the dimensions of the perforated plate and the rubber sheet are all adapted to the dimensions of the inside of the squeeze tube (14), the inside of the squeeze tube (14) corresponds to the bottom end of the surface of the stopper rod (13), and the spray plate (15) is bolted to the treatment tank (4).

10. The use method of the remediation equipment for the soil pollution treatment is characterized by comprising the following steps:

s1: pouring the repairing liquid into the liquid storage tank (5), moving the scraper (1) and the treatment tank (4) to a land requiring repairing, and bringing the soil on the surface layer into the treatment tank (4) by the scraper (1);

s2: the power mechanism (2) can drive the main chain wheel (6) and the auxiliary chain wheel (8) to rotate through the transmission mechanism (3), the main chain wheel (6) and the auxiliary chain wheel (8) respectively drive the crushing knife roller (7) and the crushing knife roller (9) to rotate, and the crushing knife roller (7) and the crushing knife roller (9) are utilized to crush soil;

s3: the power mechanism (2) can drive the small helical gear (10) to rotate through the transmission mechanism (3), the small helical gear (10) can drive the connecting rod (12) to rotate through the crankshaft (11), the connecting rod (12) can quantitatively extrude the repairing liquid in the extrusion cylinder (14) through the plug rod (13), and the repairing liquid is sprayed to the crushed soil through the spraying plate (15);

s4: the crushing knife roller (7) drives the soil to move out of the treatment box (4) by utilizing the rotation of the crushing knife roller, and then the soil is paved on the ground again.