CN118181100B - A rust removal machine convenient for processing thick rust - Google Patents

Abstract

The invention discloses a rust remover convenient for treating thick rust, which relates to the technical field of rust removers and comprises a box body, an impact assembly and a pushing assembly, wherein a driving box is arranged at the top of the inner side of the box body, the output end of the driving box is connected with a first rotary table, and the inner side of the first rotary table is connected with a first transmission chain. According to the invention, the high-frequency hammering of the surface of the steel plate by the extruding seat can be realized through the reciprocating rotation of the cam, and the cam is alternately arranged on the rotating shaft in the positive and negative directions, so that the extruding seat at the adjacent position can alternately hammer the steel plate, the surface of the steel plate can generate high-frequency vibration through the high-frequency alternating reciprocating hammering, and the thick rust piled on the surface of the steel plate can be effectively stripped through the high-frequency vibration matched with the hammering force, and the impact assembly is positioned at the front end of the rust removing steel wire wheel, so that the equipment can strip the agglomerated thick rust from the steel plate in advance before polishing and rust removing of the steel plate, and the condition that the thick rust treatment is difficult due to polishing and rust removing singly can be greatly reduced.

Description

Rust remover convenient to handle thick rust

Technical Field

The invention relates to the technical field of rust removers, in particular to a rust remover convenient for treating thick rust.

Background

The steel plate is one of the most common building materials, the steel plate is usually stacked and placed in a warehouse or an empty space before being prepared and used, the steel plate is rusted on the surface in the placing process and is contacted with humid air and moisture, and the contact area between the steel plate and the air and the moisture is large because the steel plate is large in volume, so that thick rust is easily connected to the surface of the steel plate, rust removal treatment is usually carried out on the steel plate before the steel plate is used, and a rust remover is generally used for rust removal.

The rust remover on the market generally adopts the structure of polishing to rust, and the structure of polishing is comparatively easy when handling thin rust, but if steel sheet surface rust is too thick, adopt the rust removal of polishing usually need take longer just can effectively to rust the face clearance, seriously influence rust removal efficiency, and current rust remover can't be effectively collect the rust powder of polishing in addition, and rust powder distributes in the air, can seriously harm staff's health.

Accordingly, in view of the above, research and improvement on the existing structure and defects have been made, and a rust remover for handling thick rust is proposed.

Disclosure of Invention

The invention aims to provide a rust remover convenient for treating thick rust, so as to solve the problems in the prior art.

In order to achieve the aim, the rust remover comprises a box body, an impact assembly and a pushing assembly, wherein a driving box is arranged at the top of the inner side of the box body, the output end of the driving box is connected with a first rotary table, the inner side of the first rotary table is connected with a first transmission chain, one side, far away from the first rotary table, of the first transmission chain is connected with a second rotary table, the outer end of the second rotary table is connected with a rust removing steel wire wheel, the outer end of the first rotary table is connected with a third rotary table, the inner side of the third rotary table is connected with a second transmission chain, one side, far away from the third rotary table, of the second transmission chain is connected with a fourth rotary table, the inner side of the fourth rotary table is connected with the impact assembly, the outer end, far away from the fifth rotary table, of the third transmission chain is connected with a rust removing assembly, the outer end of the box is connected with a coating assembly, the outer side of the coating assembly is connected with a blower, the outer side of the coating assembly is connected with a second rotary table, the outer side of the second rotary table is connected with a second rotary table, the second rotary table is connected with a fourth rotary table, the impact assembly is connected with the fourth rotary table, the fourth rotary table is connected with the other side of the second rotary table and the second rotary table is connected with the second rotary table.

Further, strike the subassembly and include axis of rotation, cam, fixing base, lifter, reset spring, extrusion seat and impact head, the outer end of axis of rotation is connected with the cam, the inboard of box is provided with the fixing base, the inboard of fixing base is connected with the lifter, and the top outer end of lifter is connected with reset spring, the top of lifter is connected with extrusion seat, and the bottom of lifter is provided with impact head.

Furthermore, the cams are distributed in an array at the outer end of the rotating shaft, and the cams are alternately arranged in the positive and negative directions at the outer end of the rotating shaft.

Furthermore, the reset spring is elastically connected with the lifting rod, and the lifting rod is distributed in an array mode inside the fixing seat.

Further, rust cleaning subassembly includes sixth carousel, first awl tooth, second awl tooth, locating plate, dwang, seventh carousel, fourth drive chain and rust cleaning wire dish, the outer end of sixth carousel is connected with first awl tooth, and the outer end of first awl tooth is connected with the second awl tooth, the inboard of box is provided with the locating plate, the outer end of dwang is connected with seventh carousel, the inboard of seventh carousel is connected with the fourth drive chain.

Further, the seventh turntables are distributed at the bottom end of the positioning plate in an array mode, and the positions of the seventh turntables and the positions of the rotating rods are in one-to-one correspondence.

Further, the cladding subassembly includes the joint board, first tension spring, cup joints frame, ball, second tension spring, shielding plate, the bottom outside of joint board is provided with first tension spring, and the bottom outer end of first tension spring is provided with cup joints the frame, the bottom of cup joints the frame is connected with the ball, and cup joints the inboard of frame and be connected with second tension spring, the outer end of second tension spring is connected with the shielding plate.

Further, the first tension spring is elastically connected with the sleeve joint frame, and the inner surface of the sleeve joint frame is attached to the outer surface of the box body.

Further, the second tension spring is elastically connected with the cover plate, and the cover plate is connected with the sleeve joint frame in a sleeve joint mode.

Further, the promotion subassembly includes armature seat, laser derusting machine, promotes seat, drive wheel and handle, the outer end of armature seat is connected with the laser derusting machine, and the end of laser derusting machine is provided with promotes the seat, the bottom both sides of promoting the seat are provided with the drive wheel, and promote the top outer end of seat and be connected with the handle.

The invention provides a rust remover convenient for treating thick rust, which has the following beneficial effects:

1. According to the invention, the first turntable can drive the third turntable to synchronously rotate in the rotating process, the third turntable is connected with the fourth turntable through the second transmission chain, and the fourth turntable is sleeved and fixed at the outer end of the rotating shaft, so that the fourth turntable can drive the rotating shaft to rotate, the rotating shaft can drive the cam to rotate and extrude the extruding seat in the rotating process, after the extruding seat receives extrusion force, the restoring spring can shrink and store force and can drive the lifting rod to move downwards, the lifting rod can drive the extruding seat to synchronously move downwards in the moving-downwards process, the steel plate surface is impacted, after the protruding point of the cam moves away from the top of the extruding seat, the restoring spring can drive the extruding seat to move upwards again, the steel plate surface can be hammered by the cam in a reciprocating mode through the cam, the extruding seat at the adjacent position can alternately hammer the steel plate surface, the steel plate surface can be vibrated at a high frequency through the high frequency alternate hammering, the rust removing and stripping of the steel plate surface can be effectively carried out through the high frequency vibration matching hammering force, the rust removing and stripping of the steel plate surface can be greatly difficult to remove rust by adopting the rust removing equipment in advance, and the rust removing condition is greatly reduced.

2. According to the invention, the first turntable can drive the fifth turntable to rotate in the rotating process, the fifth turntable can drive the sixth turntable to rotate through the third transmission chain, the sixth turntable is connected with the first bevel gear, the rotating rod can be driven to rotate in the meshing rotating process of the first bevel gear and the second bevel gear, the fourth transmission chain can be driven to rotate through the seventh turntable in the rotating process of the rotating rod, all the seventh turntables of the bottom end array of the positioning plate are driven to rotate, the rust removing steel wire disc can be driven to rotate through the rotating rod in the rotating process of the seventh turntable, the rust removing steel wire disc is positioned at the rear end of the rust removing steel wire wheel, the rust removing steel wire disc can be subjected to secondary rust removing after rust removing of the rust removing steel wire wheel is finished, the rust removing steel wire wheel is in the longitudinal rotation mode, the rust removing steel wire wheel is in the transverse rotation mode, the rust removing effect of the device can be effectively improved, in addition, the outer end of the connecting seat is further provided with a laser rust removing machine, after rust removing of the steel wire disc is finished, the rust removing steel wire disc can be driven to work through the laser rust removing machine, the rust removing steel wire disc can be subjected to third rust removing, the rust removing steel wire disc can be greatly removed, if the rust removing steel wire disc is extruded by the rust removing steel wire disc is in the same amount, and the rust removing steel wire is extruded by the rust removing steel wire disc is simultaneously, and the rust removing steel wire is conveniently and the rust removing steel wire is driven by the rust.

3. According to the invention, the first tension spring is stretched by gravity to move downwards at the outer end of the box body, so that the balls at the bottom end of the sleeve frame can be in contact with the surface of the steel plate, friction force between the sleeve frame and the steel plate can be reduced, so that the situation that equipment is difficult to push occurs, in the process of derusting, the ground rust can be prevented from splashing through covering the bottom end of the box body by the sleeve frame, in addition, high-speed air flow can be blown out from the air delivery pipe through the working of the blower, the ground rust can be blown out to the rear end of the box body, the suction pipe can be used for absorbing the blown rust through the suction machine, the equipment can be used for cleaning the rust at a high speed, in addition, the second tension spring can be pulled along with the gravity to be attached to the steel plate, after the shielding plate is moved downwards to be attached to the steel plate, the gap between the balls and the steel plate can be filled, the situation that the ground rust in the process of the ball is prevented from leaking from the gap between the balls and the steel plate, the size of the shielding plate is small, interference can not be caused by normal displacement of the equipment, the shielding plate can be completely attached to the rear end of the air delivery pipe, the suction pipe can be completely attached to the surface of the steel plate, and the rust can be completely removed from the rust surface of the steel plate, if the rust can be completely and the rust can be completely removed, and the rust can be completely and even, and the rust can be leaked from the surface in the process from the position in the process.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a rust remover for treating thick rust;

FIG. 2 is a schematic view of a rust removing steel wire wheel structure of a rust remover for treating thick rust;

FIG. 3 is a schematic view of an impact assembly of a rust remover for treating thick rust;

FIG. 4 is a schematic view of a rust removing assembly of a rust remover for treating thick rust;

FIG. 5 is a schematic view of a coating assembly of a rust remover for handling thick rust according to the present invention;

fig. 6 is an enlarged schematic view of the rust remover of fig. 1 for handling thick rust.

In the figure, 1, a box body, 2, a driving box, 3, a first rotary table, 4, a first driving chain, 5, a second rotary table, 6, a rust removing wire wheel, 7, a third rotary table, 8, a second driving chain, 9, a fourth rotary table, 10, an impact assembly, 1001, a rotary shaft, 1002, a cam, 1003, a fixed seat, 1004, a lifting rod, 1005, a return spring, 1006, an extrusion seat, 1007, an impact head, 11, a fifth rotary table, 12, a third driving chain, 13, a rust removing assembly, 1301, a sixth rotary table, 1302, a first conical tooth, 1303, a second conical tooth, 1304, a positioning plate, a rotary rod, 1306, a seventh rotary table, 1307, a fourth driving chain, 1308, a rust removing wire wheel, 14, a coating assembly, 1401, a connecting plate, 1402, a first tension spring, 1403, a socket frame, 1404, a ball, 1405, a second tension spring, 1406, a shielding plate, 15, a blower, 16, a pipe, 17, a suction machine, 18, a suction pipe, 19, a pushing assembly, 1901, a rust removing device, a handle, 1903, a driving wheel, a gas transmission seat, 1905, a gas transmission seat.

Detailed Description

Referring to fig. 1 to 6, the rust remover for heavy rust treatment comprises a box body 1, an impact assembly 10 and a pushing assembly 19, wherein a driving box 2 is arranged at the top of the inner side of the box body 1, the output end of the driving box 2 is connected with a first rotating disc 3, the inner side of the first rotating disc 3 is connected with a first transmission chain 4, one side of the first transmission chain 4 away from the first rotating disc 3 is connected with a second rotating disc 5, the outer end of the second rotating disc 5 is connected with a rust removing steel wire wheel 6, the outer end of the first rotating disc 3 is connected with a third rotating disc 7, the inner side of the third rotating disc 7 is connected with a second transmission chain 8, one side of the second transmission chain 8 away from the third rotating disc 7 is connected with a fourth rotating disc 9, the inner side of the fourth rotating disc 9 is connected with the impact assembly 10, the outer end of the third rotating disc 7 is connected with a fifth rotating disc 11, the inner side of the fifth rotating disc 11 is connected with a third transmission chain 12, one side of the third transmission chain 12 away from the fifth rotating disc 11 is connected with a rust removing assembly 13, the outer end of the box body 1 is connected with a coating assembly 14, the outer end of the coating assembly 14 is connected with a front end 15 of the blower fan 15, the outer end of the blower assembly is connected with the suction tube 17, and the outer end of the suction tube is connected with the suction tube 17.

Referring to fig. 1 to 6, the impact assembly 10 includes a rotation shaft 1001, a cam 1002, a fixing base 1003, a lifting rod 1004, a return spring 1005, an extrusion seat 1006 and an impact head 1007, the outer end of the rotation shaft 1001 is connected with the cam 1002, the inner side of the box 1 is provided with the fixing base 1003, the inner side of the fixing base 1003 is connected with the lifting rod 1004, and the top outer end of the lifting rod 1004 is connected with the return spring 1005, the top end of the lifting rod 1004 is connected with the extrusion seat 1006, and the bottom end of the lifting rod 1004 is provided with the impact head 1007, the cam 1002 is distributed in an array at the outer end of the rotation shaft 1001, and the cam 1002 is distributed in a positive and negative alternation at the outer end of the rotation shaft 1001, the return spring 1005 is elastically connected with the lifting rod 1004, and the lifting rod 1004 is distributed in an array inside the fixing base 1003, the rust removing assembly 13 includes a sixth rotary disc 1301, a first conical tooth 1302, a second conical tooth 1303, a positioning plate 1304, a rotary rod 1305, a seventh rotary disc 1306, a fourth transmission chain 1307 and a rust removing wire disc 1308, the outer end of the sixth rotary table 1301 is connected with a first conical tooth 1302, the outer end of the first conical tooth 1302 is connected with a second conical tooth 1303, the inner side of the box body 1 is provided with a positioning plate 1304, the outer end of the rotary rod 1305 is connected with a seventh rotary table 1306, the inner side of the seventh rotary table 1306 is connected with a fourth transmission chain 1307, the seventh rotary table 1306 is distributed in an array shape at the bottom end of the positioning plate 1304, the positions of the seventh rotary table 1306 and the rotary rod 1305 are in one-to-one correspondence, the wrapping assembly 14 comprises a connecting plate 1401, a first tension spring 1402, a sleeve-joint frame 1403, a ball 1404, a second tension spring 1405 and a cover plate 1406, the outer side of the bottom of the connecting plate 1401 is provided with the first tension spring 1402, the outer end of the bottom of the first tension spring 1402 is provided with the sleeve-joint frame 1403, the bottom end of the sleeve-joint frame 1403 is connected with the ball 1404, the inner side of the sleeve-joint frame 1403 is connected with the second tension spring 1405, the outer end of the second tension spring 1405 is connected with the cover plate 1406, the first tension spring 1402 is elastically connected with the sleeving frame 1403, the inner surface of the sleeving frame 1403 is attached to the outer surface of the box body 1, the second tension spring 1405 is elastically connected with the shielding plate 1406, the shielding plate 1406 is sleeved with the sleeving frame 1403, the pushing assembly 19 comprises a connecting seat 1901, a laser derusting machine 1902, a pushing seat 1903, driving wheels 1904 and a handle 1905, the outer end of the connecting seat 1901 is connected with the laser derusting machine 1902, the tail end of the laser derusting machine 1902 is provided with a pushing seat 1903, driving wheels 1904 are arranged on two sides of the bottom of the pushing seat 1903, and the outer end of the top of the pushing seat 1903 is connected with the handle 1905;

The specific operation is as follows: the staff holds the handle 1905 and starts the engine in the pushing seat 1903, the driving wheel 1904 can rotate and drive the equipment to move, after the equipment moves to the surface of the steel plate to be derusted, the derusting steel wire wheel 6 and the derusting steel wire disc 1308 can be attached to the surface of the steel plate, at the moment, the staff drives the driving box 2 to work and can drive the first rotary disc 3 to rotate, the first rotary disc 3 can drive the second rotary disc 5 to rotate through the first transmission chain 4 in the rotating process, the second rotary disc 5 is connected with the derusting steel wire wheel 6, the second rotary disc 5 can drive the derusting steel wire wheel 6 to rotate together in the rotating process, the derusting steel wire wheel 6 can derust the surface of the steel plate, the first rotary disc 3 can drive the third rotary disc 7 to synchronously rotate in the rotating process, and the third rotary disc 7 is connected with the fourth rotary disc 9 through the second transmission chain 8, the fourth turntable 9 is sleeved and fixed at the outer end of the rotating shaft 1001, so that the fourth turntable 9 can drive the rotating shaft 1001 to rotate, the rotating shaft 1001 can drive the cam 1002 to rotate and extrude the extruding seat 1006 in the rotating process, after the extruding seat 1006 receives extrusion force, the reset spring 1005 can shrink and store force and can drive the lifting rod 1004 to move downwards, the lifting rod 1004 can drive the extruding seat 1006 to move downwards synchronously in the moving process, the surface of a steel plate is impacted, after the salient point of the cam 1002 moves away from the top of the extruding seat 1006, the reset spring 1005 can rebound to drive the extruding seat 1006 to move upwards again, the high-frequency hammering of the surface of the steel plate by the extruding seat 1006 can be realized through the reciprocating rotation of the cam 1002, the cam 1002 is alternately distributed on the rotating shaft 1001 in the positive and negative directions, the extruding seat 1006 at the adjacent position can alternately hammer the steel plate, the high-frequency alternately hammer the steel plate, the high-frequency vibration can be generated on the surface of the steel plate, the accumulated thick rust on the surface of the steel plate can be effectively stripped through the high-frequency vibration and the hammering force, because the impact assembly 10 is positioned at the front end of the derusting steel wire wheel 6, the device can strip the agglomerated thick rust and the steel plate in advance before grinding and derusting the steel plate, the situation that the thick rust treatment is difficult caused by grinding and derusting is greatly reduced, the first rotating disc 3 can also drive the fifth rotating disc 11 to rotate in the rotating process, the fifth rotating disc 11 can drive the sixth rotating disc 1301 to rotate through the third transmission chain 12, the sixth rotating disc 1301 is connected with the first conical teeth 1302, the first conical teeth 1302 can drive the rotating rod 1305 to rotate in the meshing and rotating process of the first conical teeth 1302, the fourth transmission chain 1307 can be driven through the seventh rotating disc 1306 to drive all the seventh rotating discs 1306 of the bottom end arrays of the positioning plates 1304 to rotate, the seventh turntable 1306 can drive the derusting wire disc 1308 to rotate through the rotating rod 1305 in the rotating process, the derusting wire disc 1308 is positioned at the rear end of the derusting wire wheel 6, so that the derusting wire disc 1308 can carry out secondary derusting after the derusting of the derusting wire wheel 6 is finished, the derusting wire wheel 1308 can effectively improve the derusting effect of equipment by adopting two groups of grinders with different phase inversion through the longitudinal rotation of the derusting wire wheel 6 and the transverse rotation of the derusting wire wheel 1308, in addition, the outer end of the connecting seat 1901 is also provided with a laser derusting machine 1902, after the derusting wire disc 1308 finishes derusting, the laser derusting machine 1902 works, can carry out third derusting on a steel plate, can greatly improve the derusting effect of equipment through the third derusting, and in addition, if the surface of the steel plate is also peeled off by the impact assembly 10, the cleaning of thick rust can also be effectively realized through the common operation of a plurality of groups of derusting parts, in addition, a rust-removing steel wire wheel 6, The press seat 1006 and the wire reel 1308 are driven by the drive box 2, which causes the wire reel 6 to be removed, The rotation speed and the impact speed of the extrusion seat 1006 and the rust removing steel wire disc 1308 can be synchronously adjusted according to the rust on the steel plate, so that the operation of the equipment can be facilitated, after the equipment moves to the surface of the steel plate, the first tension spring 1402 is stretched by gravity to move down at the outer end of the box body 1, the balls 1404 at the bottom end of the sleeve frame 1403 can be in contact with the surface of the steel plate, the friction force between the sleeve frame 1403 and the steel plate can be reduced by the balls 1404, the equipment is prevented from being difficult to push, in the rust removing process, the bottom end of the box body 1 is covered by the sleeve frame 1403, the polished rust can be prevented from being splashed, in addition, the air blower 15 works, the high-speed air flow can be blown out from the position of the box body 16, the polished rust can be blown off to the rear end of the box body 1, the suction pipe 17 works, the suction pipe 18 can absorb the blown rust at 1406, the high speed can be used for effectively cleaning the rust, the shielding plate can also be pulled by gravity to be attached to the second tension spring, the shielding plate is attached to the steel plate, in addition, the shielding plate can be attached to the shielding plate is prevented from being attached to the steel plate, in the rust removing process, in addition, the gap can be prevented from being completely leaked from the surface of the steel plate 1406, and the gap can be completely removed from the surface of the steel plate 1406, the rust can be completely and the surface is prevented from being attached to the surface to the steel plate, the surface of the steel plate, the surface is completely, and the gap can be completely leaked from the surface to the surface of the steel plate 1406, and the surface is completely removed.

In summary, when the rust remover convenient for handling thick rust is used, firstly, a worker holds the handle 1905 and starts the engine in the pushing seat 1903, so that the driving wheel 1904 can rotate and drive the equipment to move, after the equipment moves to the surface of a steel plate to be derusted, the derusted steel wire wheel 6 and the derusted steel wire disc 1308 can be attached to the surface of the steel plate, at the moment, the worker drives the driving box 2 to work and can drive the first rotary disc 3 to rotate, the first rotary disc 3 can drive the second rotary disc 5 to rotate through the first transmission chain 4 in the rotating process, and the second rotary disc 5 is connected with the derusted steel wire wheel 6, so that the second rotary disc 5 can drive the derusted steel wire wheel 6 to rotate together in the rotating process, and the derusting steel wire wheel 6 can derusting the surface of the steel plate;

Then, the first rotating disc 3 can drive the third rotating disc 7 to synchronously rotate in the rotating process, the third rotating disc 7 is connected with the fourth rotating disc 9 through the second transmission chain 8, the fourth rotating disc 9 is sleeved and fixed at the outer end of the rotating shaft 1001, the fourth rotating disc 9 can drive the rotating shaft 1001 to rotate, the rotating shaft 1001 can drive the cam 1002 to rotate and extrude the extruding seat 1006 in the rotating process, after the extruding seat 1006 receives extrusion force, the reset spring 1005 can shrink and store force and can drive the lifting rod 1004 to move downwards, the lifting rod 1004 can drive the extruding seat 1006 to synchronously move downwards in the moving downwards process, the protruding point of the cam 1002 can drive the extruding seat to upwards move again after moving away from the top of the extruding seat 1006, the extruding seat 1006 can hammer the steel plate surface at high frequency through the reciprocating rotation of the cam 1002, the extruding seat 1006 at the front and back alternately arranged on the rotating shaft 1001, the extruding seat 1006 at the adjacent position can alternately hammer the steel plate, the steel plate 1006 can generate high-frequency alternate reciprocating hammer, the steel plate 1006 can vibrate and effectively peel off the thick steel plate surface through high-frequency alternate vibration;

The first rotating disc 3 can also drive the fifth rotating disc 11 to rotate in the rotating process, the fifth rotating disc 11 can drive the sixth rotating disc 1301 to rotate through the third transmission chain 12, the sixth rotating disc 1301 is connected with the first conical teeth 1302, the first conical teeth 1302 and the second conical teeth 1303 can be meshed and rotated to drive the rotating rod 1305 to rotate, in the rotating process of the rotating rod 1305, the seventh rotating disc 1306 can drive the fourth transmission chain 1307 to drive all the seventh rotating discs 1306 in the bottom end array of the positioning plate 1304 to rotate, in the rotating process of the seventh rotating disc 1306, the rotating rod 1305 can drive the rust removing steel wire disc 1308 to rotate, the rust removing steel wire disc 1308 is positioned at the rear end of the rust removing steel wire wheel 6, the rust removing steel wire disc 1308 can perform secondary rust removing after the rust removing of the rust removing steel wire wheel 6 is completed, the rust removing steel wire wheel 6 is longitudinally rotated, the rust removing steel wire disc 1308 is transversely rotated, in addition, the outer end of the rotating seat 1901 is further provided with a laser rust removing machine 1902, after the rust removing steel wire disc 1308 is completely removed, the rust removing steel wire is completely removed through the rust removing device, the rust removing assembly is further can be jointly cleaned through the rust removing assembly 10, and the rust removing effect is achieved;

finally, after the equipment moves to the surface of the steel plate, the sleeve joint frame 1403 stretches the first tension spring 1402 to move downwards at the outer end of the box body 1 due to gravity, so that the balls 1404 at the bottom end of the sleeve joint frame 1403 can be in contact with the surface of the steel plate, friction force between the sleeve joint frame 1403 and the steel plate can be reduced by the balls 1404, so that the situation that the equipment is difficult to push is avoided, the bottom end of the box body 1 is covered by the sleeve joint frame 1403 in the rust removing process, the situation that the polished rust splashes can be avoided, in addition, the air blower 15 works, high-speed air flow can be blown out from the air delivery pipe 16, the polished rust powder can be blown off to the rear end of the box body 1, the suction pipe 18 can absorb the blown rust powder through the suction pipe 17, the equipment can clean the rust powder at a high speed, in addition, the shielding plate 1406 can also be pulled by gravity to be attached with the steel plate, the gap between the balls 1405 and the steel plate can be filled, the gap between the balls 1406 and the steel plate can be filled, the situation that the rust clearance between the balls 1404 and the steel plate can be avoided in the rust removing process is removed from the gap between the steel plate, and the gap between the balls 1404 and the steel plate is small, and the rust removing device can be completely leaked from the surface of the rust removing process, and the rust can be completely detected, and the surface of the rust can be completely and the rust can be removed from the surface of the steel plate, and the surface can be completely and the rust can be completely removed from the surface and the surface due to the situation to the surface to the rust removal to the rust can not be completely to be completely removed.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. A rust removal machine convenient for processing thick rust, characterized in that it comprises a box body (1), an impact assembly (10) and a pushing assembly (19), a driving box (2) is arranged on the inner top of the box body (1), and the output end of the driving box (2) is connected to a first turntable (3), the inner side of the first turntable (3) is connected to a first transmission chain (4), and the side of the first transmission chain (4) away from the first turntable (3) is connected to a second turntable (5), the outer end of the second turntable (5) is connected to a rust removal wire wheel (6), the outer end of the first turntable (3) is connected to a third turntable (7), and the inner side of the third turntable (7) is connected to A second transmission chain (8), wherein the second transmission chain (8) is connected to a fourth rotating disk (9) on a side away from the third rotating disk (7), an impact assembly (10) is connected to the inner side of the fourth rotating disk (9), an outer end of the third rotating disk (7) is connected to a fifth rotating disk (11), and the inner side of the fifth rotating disk (11) is connected to a third transmission chain (12), a side of the third transmission chain (12) away from the fifth rotating disk (11) is connected to a rust removal assembly (13), an outer end of the housing (1) is connected to a covering assembly (14), and a front outer side of the covering assembly (14) is connected to a blower (15), and an outer end of the blower (15) is connected to The casing (1) has an air delivery pipe (16), the outer side of the rear of the covering component (14) is connected to a suction machine (17), and the outer end of the suction machine (17) is connected to a suction pipe (18), the pushing component (19) is arranged on the outer side of the rear of the box body (1), the covering component (14) comprises a connecting plate (1401), a first tension spring (1402), a sleeve frame (1403), a ball (1404), a second tension spring (1405), and a cover plate (1406), the outer side of the bottom of the connecting plate (1401) is provided with a first tension spring (1402), and the outer end of the bottom of the first tension spring (1402) is connected to the ... pushing component (19) is arranged on the outer side of the rear of the box body (1), the pushing component (19) is arranged on the outer side of the rear A sleeve frame (1403) is provided, the bottom end of the sleeve frame (1403) is connected to a ball bearing (1404), the inner side of the sleeve frame (1403) is connected to a second tension spring (1405), the outer end of the second tension spring (1405) is connected to a cover plate (1406), the first tension spring (1402) is elastically connected to the sleeve frame (1403), and the inner surface of the sleeve frame (1403) is in contact with the outer surface of the box body (1), the second tension spring (1405) is elastically connected to the cover plate (1406), and the cover plate (1406) is sleeve-connected to the sleeve frame (1403). 2. A rust remover for processing thick rust according to claim 1, characterized in that the impact assembly (10) comprises a rotating shaft (1001), a cam (1002), a fixed seat (1003), a lifting rod (1004), a return spring (1005), an extrusion seat (1006) and an impact head (1007), the outer end of the rotating shaft (1001) is connected to the cam (1002), the inner side of the box body (1) is provided with a fixed seat (1003), the inner side of the fixed seat (1003) is connected to the lifting rod (1004), and the top outer end of the lifting rod (1004) is connected to the return spring (1005), the top end of the lifting rod (1004) is connected to the extrusion seat (1006), and the bottom end of the lifting rod (1004) is provided with an impact head (1007). 3. A rust removal machine that is convenient for handling thick rust according to claim 2, characterized in that the cams (1002) are distributed in an array at the outer end of the rotating shaft (1001), and the cams (1002) are arranged alternately in positive and negative directions at the outer end of the rotating shaft (1001). 4. A rust remover that is convenient for processing thick rust according to claim 2, characterized in that the return spring (1005) is elastically connected to the lifting rod (1004), and the lifting rod (1004) is distributed in an array shape inside the fixed seat (1003). 5. A rust removal machine for handling thick rust according to claim 1, characterized in that the rust removal component (13) comprises a sixth turntable (1301), a first bevel gear (1302), a second bevel gear (1303), a positioning plate (1304), a rotating rod (1305), a seventh turntable (1306), a fourth transmission chain (1307) and a rust removal wire disc (1308), the outer end of the sixth turntable (1301) is connected to the first bevel gear (1302), and the outer end of the first bevel gear (1302) is connected to the second bevel gear (1303), a positioning plate (1304) is provided on the inner side of the box body (1), the outer end of the rotating rod (1305) is connected to the seventh turntable (1306), and the inner side of the seventh turntable (1306) is connected to the fourth transmission chain (1307). 6. A rust remover for processing thick rust according to claim 5, characterized in that the seventh turntable (1306) is distributed in an array at the bottom of the positioning plate (1304), and the positions of the seventh turntable (1306) and the rotating rod (1305) correspond one to one. 7. A rust remover that is convenient for handling thick rust according to claim 1, characterized in that the pushing component (19) includes a connecting seat (1901), a laser rust remover (1902), a pushing seat (1903), a driving wheel (1904) and a handle (1905), the outer end of the connecting seat (1901) is connected to the laser rust remover (1902), and the end of the laser rust remover (1902) is provided with a pushing seat (1903), driving wheels (1904) are provided on both sides of the bottom of the pushing seat (1903), and the top outer end of the pushing seat (1903) is connected to the handle (1905).