阅读说明：本技术 一种环保型管道打磨工艺 (Environment-friendly pipeline polishing process ) 是由 唐晓晖 于 2020-07-03 设计创作，主要内容包括：本发明公开了一种环保型管道打磨工艺,包括基板,四个所述安装柱之间安装有若干打磨机构,两个所述方筒滑套之间位于固定端杆上方位置处焊接有安装端杆,两个所述安装端杆之间对称转动连接有两组打磨轴,四个所述打磨轴外表面中部均套装有打磨辊,所述固定端杆之间安装有内磨组件,所述内磨轴中部外表面套装有内磨辊,本发明结构科学合理,使用安全方便,同一层的打磨机构和内磨组件配合,能对不同管径和壁厚的管道进行外表面和内表面的同时打磨,且多层打磨机构的设置,便于同时进行多种管径和壁厚的管道打磨,有效提高了打磨效率,解决了单工位打磨机效率低的问题。(The invention discloses an environment-friendly pipeline polishing process, which comprises a base plate, wherein a plurality of polishing mechanisms are arranged among four mounting columns, a mounting end rod is welded at a position above a fixed end rod between two square-tube sliding sleeves, two groups of polishing shafts are symmetrically and rotatably connected between the two mounting end rods, polishing rollers are sleeved in the middle parts of the outer surfaces of the four polishing shafts, the invention has scientific and reasonable structure and safe and convenient use, and the grinding mechanism and the internal grinding component on the same layer are matched to simultaneously grind the outer surface and the inner surface of pipelines with different pipe diameters and wall thicknesses, and the multilayer grinding mechanism is convenient for grind the pipelines with various pipe diameters and wall thicknesses, effectively improves grinding efficiency and solves the problem of low efficiency of the single-station grinding machine.)

1. An environment-friendly pipeline polishing process is characterized in that: the method comprises the following steps:

s1, firstly, rapidly adjusting the pipelines to be polished through a polishing mechanism (4), so as to adapt to polishing of pipelines with different pipe diameters;

s2, adjusting the internal grinding assembly (5) to grind the inner surface of the pipeline in the grinding process of the outer surface of the pipeline, playing a role in clamping and improving the stability in the processing process;

s3, polishing the pipeline by the polishing mechanism (4) and the internal grinding assembly (5), starting the spraying mechanism 6, and performing dust reduction treatment on dust generated in the polishing process to remove pollution;

s4, filtering the water sprayed during polishing by passing through the filter cloth (10) in the waste liquid through groove (7), and collecting debris;

s5, absorbing and recycling iron scraps in the polished pipeline through a post-treatment mechanism (12) after polishing is finished, so that iron scrap pollution caused by direct discharge of the iron scraps is avoided;

and S6, finally, detecting the pipeline by an operator, and carrying, packaging and transporting the pipeline after the pipeline is detected to be qualified.

2. The environment-friendly pipeline polishing process as claimed in claim 1, comprising a base plate (1), wherein supporting columns (2) are mounted at each corner position of the bottom end of the base plate (1), and mounting columns (3) are mounted at each corner position of the top end of the base plate (1);

a plurality of grinding mechanisms (4) are arranged among the four mounting columns (3), each grinding mechanism (4) comprises a fixed end rod (401), a fixed shaft (402), a supporting roller (403), a square-tube sliding sleeve (404), a butterfly bolt (405), an anti-slip rubber strip (406), a side reinforcing rod (407), a mounting end rod (408), a grinding shaft (409), a grinding roller (410), a same-group transmission belt (411), a grinding motor (412) and a different-group transmission belt (413);

the fixing end rod (401) is welded on the side surfaces of two mounting columns (3), two groups of fixing shafts (402) are symmetrically arranged between the two mounting columns (3), the number of the single group of fixing shafts (402) is two, supporting rollers (403) are sleeved in the middle of the four fixing shafts (402), square-tube sliding sleeves (404) are slidably connected to the positions, located above the fixing end rod (401), of the outer surfaces of the four mounting columns (3), butterfly bolts (405) are installed on the surface of one side of each square-tube sliding sleeve (404) in a penetrating mode through threads, anti-slip rubber strips (406) are installed at the positions, corresponding to the end portions of the butterfly bolts (405), of the surface of one side of each mounting column (3) in an embedded mode, the mounting end rod (408) is welded at the position, located above the fixing end rod (401), between the two square-tube sliding sleeves (404), two end faces of each side reinforcing rod (407) are welded on, two symmetrical rotation is connected with two sets of axles of polishing (409) between installation end pole (408), singly organize axle of polishing (409) quantity is two, four it all overlaps in the middle part of axle of polishing (409) surface is equipped with and is equipped with the roller of polishing (410), two of the same group the axle of polishing (409) tip is connected through the transmission of the same group driving belt (411), different just adjacent two of organizing another end of axle of polishing (409) is connected through the transmission of the different group driving belt (413), one axle of polishing (409) one end is connected with grinding motor (412).

The polishing motor (412) is installed on the surface of one side of the installation end rod (408) through a bolt, the different group of transmission belts (413) and the polishing motor (412) are located on one side of the same installation end rod (408), the same group of transmission belts (411) are located on one side of the other installation end rod (408), and the input end of the polishing motor (412) is electrically connected with the output end of a mains supply;

under the same section state, the middle point of the circle center connecting line of the two fixed shafts (402) in the same group and the middle point of the circle center connecting line of the two grinding shafts (409) in the same group are positioned on the same vertical line.

3. The environment-friendly pipeline polishing process as claimed in claim 2, wherein an inner grinding assembly (5) is installed between the fixed end rods (401), and the inner grinding assembly (5) comprises a tabling groove (501), a fixed groove block (502), a movable groove block (503), an adjusting groove (504), an adjusting screw (505), an inner grinding shaft (506), an inner grinding roller (507) and a butterfly nut (508);

the top end of each fixed end rod (401) is provided with a tabling groove (501) corresponding to the middle position of two fixed shafts (402) in the same group, the tabling groove (501) of one fixed end rod (401) is internally provided with a fixed groove block (502) in a tabling manner, the bottom end edge part of the other fixed end rod (401) is connected with a movable groove block (503) through a hinge in a swinging manner corresponding to the tabling groove (501), the middle part of one side surface of the movable groove block (503) and the middle part of one side surface of the fixed groove block (502) are respectively provided with an adjusting groove (504) in a penetrating manner, the top part of the fixed groove block (502) is connected with an adjusting screw rod (505) through a bearing in a rotating manner, the middle part of the adjusting screw rod (505) is connected with an inner grinding shaft (506) through a thread in a penetrating manner, the outer diameter of the inner grinding shaft (506) is matched with the width of the, one end of the inner grinding shaft (506) penetrates through the movable groove block (503) and is rotatably connected with a butterfly nut (508) through threads.

4. The environment-friendly pipeline polishing process as claimed in claim 3, wherein a spraying mechanism (6) is installed on one side of the base plate (1), and the spraying mechanism (6) comprises a reinforcing bottom plate (601), a water reservoir (602), a tightening screw (603), a tightening slider (604), a tightening pulley (605), a connecting shaft (606), a driven pulley (607), a driving pulley (608), a linkage belt (609), a turntable (610), a transmission rod (611), a compensation rod (612), a piston rod (613), a water inlet square cylinder (614), a water inlet one-way valve (615), a water discharge one-way valve (616), a spraying main pipe (617), a branch pipe (618) and a spraying head (619);

reinforcing bottom plates (601) are welded between the bottoms of the four supporting columns (2), a reservoir (602) is welded at the top end of each reinforcing bottom plate (601), a tightening screw rod (603) is rotatably arranged on the surface of one side of the substrate (1), the middle part of the tightening screw rod (603) is connected with a tightening sliding block (604) through threads, one side surface of the tightening slide block (604) is rotationally connected with a tightening belt wheel (605) through a rotating shaft, a connecting shaft (606) is connected to the surface of one side of the water reservoir (602) corresponding to the tightening belt wheel (605) in a penetrating and rotating manner, a driven belt wheel (607) is sleeved at one end of the connecting shaft (606), a driving belt wheel (608) is sleeved at the end part of one grinding shaft (409) which is at the same side with the grinding motor (412), the driving pulley (608), the tightening pulley (605) and the driven pulley (607) are in transmission connection through a linkage belt (609);

the other end of the connecting shaft (606) is welded with a rotating disc (610), the edge part of one side surface of the rotating disc (610) is rotatably connected with a transmission rod (611) through a rotating shaft, one end of the transmission rod (611) is rotatably connected with a compensation rod (612) through a rotating shaft, one end of the compensation rod (612) is rotatably connected with a piston rod (613) through a rotating shaft, a water inlet square tube (614) is sleeved on the outer surface of one end part of the piston rod (613), a plurality of water inlet one-way valves (615) are inserted into the surface of one side of the water inlet square tube (614) at equal intervals, one end surface of the water inlet square tube (614) is inserted with a water discharge one-way valve (616) in a penetrating manner, one end of the water discharge one-way valve (616) is welded with a spray main tube (617), the spray main tube (617) penetrates through the reservoir (602) vertically upwards and transversely above the mounting column (3), and the spray main tube (, the bottom end of the branch pipe (618) is provided with a plurality of spray headers (619) at equal intervals through threads.

5. The environment-friendly pipeline polishing process as claimed in claim 4, wherein one side surface of the tightening slider (604) is attached to one side surface of the substrate (1), two ends of the tightening screw (603) are rotatably connected with shaft seats through bearings, and the shaft seats are mounted on one side surface of the substrate (1) through screws.

6. The environment-friendly pipeline polishing process as claimed in claim 5, wherein support plates are welded to both ends of the bottom end of the water inlet square tube (614), and the bottom ends of the support plates are welded to the bottom end inside the reservoir (602).

7. The environment-friendly pipeline polishing process as claimed in claim 6, wherein the inner edge of the cross section of the water inlet square cylinder (614) is matched with the inner edge of the cross section of the piston rod (613), the liquid flow direction of the water inlet check valve (615) is that the liquid flows into the water inlet square cylinder (614) from the reservoir (602), and the liquid flow direction of the water outlet check valve (616) is that the liquid flows into the spray main pipe (617) from the water inlet square cylinder (614).

8. The environment-friendly pipeline polishing process as claimed in claim 7, wherein a waste liquid through groove (7) is formed in the middle of the top end of the base plate (1), square support irons (8) are welded at each corner position of the bottom of the waste liquid through groove (7), grid plates (9) are placed at the top ends of the four square support irons (8), filter cloth (10) is laid at the top ends of the grid plates (9), and clamping magnets (11) are placed at the positions, corresponding to the square support irons (8), of the top ends of the filter cloth (10).

9. The environment-friendly pipeline polishing process as claimed in claim 8, wherein the outer edge of the grating plate (9) and the outer edge of the filter cloth (10) are matched with the inner edge of the waste liquid through groove (7), the cross-sectional shapes of the square support iron (8) and the clamping magnet (11) are square, and the two side surfaces of the square support iron (8) and the clamping magnet (11) are matched with the inner surface of the waste liquid through groove (7).

10. The environment-friendly pipeline polishing process as claimed in claim 9, wherein a post-treatment mechanism (12) is mounted at the top end of the reinforcing bottom plate (601), and the post-treatment mechanism (12) comprises a loading frame (1201), a cleaning pool (1202), a handle bar (1203), a fixing column (1204), a rubber sleeve (1205) and a magnet piece (1206);

the utility model discloses a washing machine, including carrying and putting frame (1201), it has washing pond (1202) to weld on reinforced bottom plate (601) top to carry and put frame (1201), carry and put frame (1201) inside joint, it rotates at washing pond (1202) top and installs handle pole (1203) to wash, the inside bottom welding of washing pond (1202) has fixed column (1204), fixed column (1204) surface encircles the cover and is equipped with a plurality of rubber sleeves (1205), it has magnet piece (1206) all to paste to wash four inner walls in pond (1202) bottom, magnet piece (1206) cross sectional shape equals for trapezoidal and thickness, and is adjacent the side surface laminating of magnet piece (1206).

Technical Field

The invention relates to the technical field of pipeline processing, in particular to an environment-friendly pipeline polishing process.

Background

The polisher is the machine of polishing to the material, development and progress along with science and technology, the pipeline is usually need to the external surface after production, terminal surface and internal surface are polished, when polishing the pipeline surface, can use the polisher usually, rotation through the grinding roller, carry out the omnidirectional to the pipeline surface and polish, but the polisher on the existing market only has single station or multistation side by side, need polish one by one when the simplex position polisher is polished, can't polish a plurality of pipelines or a plurality of different external diameters's pipeline simultaneously, the low efficiency of polishing, be unfavorable for mill's quick processing to polish the pipeline, the production machining efficiency of mill has been reduced.

Disclosure of Invention

The invention provides an environment-friendly pipeline polishing process which can effectively solve the problems that a polishing machine in the market only has a single station or multiple stations side by side, the single-station polishing machine needs to polish one by one during polishing, a plurality of pipelines or a plurality of pipelines with different outer diameters cannot be polished simultaneously, the polishing efficiency is low, rapid machining and polishing of the pipelines in a factory are not facilitated, and the production and processing efficiency of the factory is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly pipeline polishing process comprises the following steps:

s1, firstly, rapidly adjusting pipelines to be polished through a polishing mechanism, so as to be suitable for polishing pipelines with different pipe diameters;

s2, adjusting the internal grinding component to grind the inner surface of the pipeline in the grinding process of the outer surface of the pipeline, playing a role in clamping and improving the stability in the processing process;

s3, enabling the grinding mechanism and the internal grinding assembly to grind the pipeline, starting the spraying mechanism, and performing dust settling treatment on dust generated in the grinding process to remove pollution;

s4, filtering the water sprayed in the polishing process through the filter cloth in the waste liquid through groove, and collecting the debris;

s5, absorbing and recycling iron scraps in the residues through the post-treatment mechanism after polishing is finished, so that iron scrap pollution caused by direct discharge of the iron scraps is avoided;

and S6, finally, detecting the pipeline by an operator, and carrying, packaging and transporting the pipeline after the pipeline is detected to be qualified.

Preferably, the LED display panel comprises a substrate, wherein supporting columns are installed at the positions of corners at the bottom end of the substrate, and installation columns are installed at the positions of corners at the top end of the substrate;

a plurality of polishing mechanisms are arranged among the four mounting columns, and each polishing mechanism comprises a fixed end rod, a fixed shaft, a supporting roller, a square-tube sliding sleeve, a butterfly bolt, an anti-skidding rubber strip, a side reinforcing rod, a mounting end rod, a polishing shaft, a polishing roller, a same-group transmission belt, a polishing motor and a different-group transmission belt;

the fixed end rods are welded on the side surfaces of two mounting columns, two groups of fixing shafts are symmetrically arranged between the two mounting columns, the number of single group of fixing shafts is two, supporting rollers are sleeved at the middle parts of the four fixing shafts, the outer surfaces of the four mounting columns are slidably connected with square tube sliding sleeves at positions above the fixed end rods, butterfly bolts are penetratingly arranged on one side surfaces of the square tube sliding sleeves through threads, anti-slip rubber strips are embedded and arranged at positions corresponding to the end parts of the butterfly bolts on one side surfaces of the mounting columns, the mounting end rods are welded at positions above the fixed end rods between the two square tube sliding sleeves, two end faces of each side reinforcing rod are welded on the side surfaces of the two square tube sliding sleeves and are perpendicular to the mounting end rods, two groups of polishing shafts are symmetrically and rotatably connected between the two mounting end rods, the number of single group of polishing shafts is two, and polishing rollers, one end of the grinding shaft is connected with a grinding motor through transmission of the same group of transmission belts, and the other end of the grinding shaft is connected with a grinding motor through transmission of the different group of transmission belts.

Grinding motor passes through the bolt and installs in installation end pole side surface, different group's driving belt is located same installation end pole one side with grinding motor, same group's driving belt is located another installation end pole one side, grinding motor input and mains output electric connection.

Preferably, under the same section state, the midpoints of the connecting lines of the centers of the two fixed shafts in the same group and the midpoints of the connecting lines of the centers of the grinding shafts in the same group are located on the same vertical line.

Preferably, an inner grinding assembly is arranged between the fixed end rods and comprises an embedding groove, a fixed groove block, a movable groove block, an adjusting groove, an adjusting screw, an inner grinding shaft, an inner grinding roller and a butterfly nut;

the top end of the fixed end rod corresponds to the middle position of two fixed shafts in the same group and is provided with an embedded groove, one fixed end rod is embedded in the embedded groove and provided with a fixed groove block, the other fixed end rod is connected with a movable groove block through a hinge in a swinging mode, the middle part of the bottom end edge of the fixed end rod corresponds to the embedded groove position, the middle part of one side surface of the movable groove block and the middle part of one side surface of the fixed groove block are provided with an adjusting groove in a penetrating mode, the top of the fixed groove block is connected with an adjusting screw rod through a bearing in a penetrating mode, the middle part of the adjusting screw rod is connected with an inner grinding shaft through threads in a penetrating mode, the outer diameter of the inner grinding shaft is matched with the width of the adjusting groove, the outer surface of the middle part.

Preferably, one side of the substrate is provided with a spraying mechanism, and the spraying mechanism comprises a reinforcing bottom plate, a reservoir, a tightening screw, a tightening slider, a tightening belt wheel, a connecting shaft, a driven belt wheel, a driving belt wheel, a linkage belt, a rotary table, a transmission rod, a compensation rod, a piston rod, a water inlet square tube, a water inlet one-way valve, a water discharge one-way valve, a spraying main pipe, a branch pipe and a spraying head;

a reinforcing bottom plate is welded among the bottoms of the four supporting columns, a reservoir is welded at the top end of the reinforcing bottom plate, a tightening screw is rotatably mounted on the surface of one side of the substrate, a tightening slider is connected to the middle of the tightening screw through threads, a tightening belt wheel is rotatably connected to the surface of one side of the tightening slider through a rotating shaft, a connecting shaft is rotatably connected to the surface of one side of the reservoir corresponding to the tightening belt wheel in a penetrating manner, a driven belt wheel is sleeved at one end of the connecting shaft, a driving belt wheel is sleeved at the end part of a polishing shaft at the same side of the polishing motor, and the driving belt wheel, the tightening belt wheel and the;

the welding of connecting axle other end has the carousel, carousel side surface limit portion rotates through the pivot and is connected with the transfer line, transfer line one end rotates through the pivot and is connected with the compensating rod, compensating rod one end rotates through the pivot and is connected with the piston rod, a piston rod tip surface cover is equipped with the square tube of intaking, a side surface equidistance of the square tube of intaking runs through the grafting and has a plurality of check valves of intaking, a square tube terminal surface of intaking runs through the grafting and has the drainage check valve, the welding of drainage check valve one end is responsible for spraying, it runs through the cistern and vertically upwards and violently in the erection column top to spray to be responsible for, is located the spraying of erection column top is responsible for and is corresponding two axial intermediate position departments of polishing of organizing and has the branch pipe, a plurality of shower.

Preferably, one side surface of the tightening sliding block is attached to one side surface of the substrate, two ends of the tightening screw rod are rotatably connected with shaft seats through bearings, and the shaft seats are mounted on one side surface of the substrate through screws.

Preferably, the bottom ends of the water inlet square barrel are welded with supporting plates, and the bottom ends of the supporting plates are welded at the bottom end inside the reservoir.

Preferably, the inner edge of the section of the water inlet square cylinder is matched with the inner edge of the section of the piston rod, the liquid flowing direction of the water inlet one-way valve flows into the water inlet square cylinder in a water storage tank, and the liquid flowing direction of the drainage one-way valve flows into the spraying main pipe in the water inlet square cylinder.

Preferably, the middle part of the top end of the base plate is penetrated and provided with a waste liquid through groove, square supporting iron is welded at each corner position of the bottom of the waste liquid through groove, four grid plates are placed at the top ends of the square supporting iron, filter cloth is laid at the top ends of the grid plates, and clamping magnets are placed at the positions, corresponding to the square supporting iron, of the top ends of the filter cloth.

Preferably, the outer edge of the grating plate and the outer edge of the filter cloth are matched with the inner edge of the waste liquid through groove, the cross sections of the square support iron and the clamping magnet are square, and the surfaces of two sides of the square support iron and the clamping magnet are attached to the inner surface of the waste liquid through groove.

Preferably, the top end of the reinforcing bottom plate is provided with a post-treatment mechanism, and the post-treatment mechanism comprises a carrying frame, a cleaning pool, a handle rod, a fixed column, a rubber sleeve and a magnet piece;

the carrying and placing frame is welded on the top end of the reinforcing bottom plate, a cleaning pool is clamped inside the carrying and placing frame, a handle rod is rotatably installed at the top of the cleaning pool, a fixing column is welded at the bottom end inside the cleaning pool, a plurality of rubber sleeves are sleeved on the outer surface of the fixing column in a surrounding mode, the magnet pieces are attached to four inner walls of the bottom of the cleaning pool, the cross section of each magnet piece is trapezoidal, the thickness of each magnet piece is equal, and the magnet pieces are adjacent to the side surfaces of the magnet pieces in a.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. grinding machanism's the roller of polishing can effectively polish to the pipeline surface, and square section of thick bamboo sliding sleeve can drive the roller of polishing and remove, and then can quick adjustment, and then polish to the pipeline of different pipe diameters, and set up a plurality of grinding machanism, can polish to different pipe diameter pipelines by layering simultaneously, effectively improved the efficiency of polishing of polisher.

2. When the pipeline surface is polished, the inner surface of the pipeline can be effectively polished through the inner grinding roller, the adjusting screw rod is rotated, the inner grinding roller is driven to move up and down, the pipeline wall can be better clamped, the inner walls of the pipelines with different thicknesses can be effectively polished, and the stability of the pipeline polishing process is further guaranteed due to the clamping effect.

3. Water liquid is taken out in the cistern through spraying the mechanism, sprays to between the roller of polishing, can effectively reduce the particulate matter pollution that the in-process dust of polishing drifted away and cause, and provides power through driven pulleys, driving pulley and the band pulley that tightens for water spray velocity is directly proportional with the speed of polishing, avoids the speed of polishing to change and sprays the not enough or too much condition of water liquid, and make full use of water liquid removes dust, reduces the water consumption.

4. The water liquid after spraying can effectively filter the piece of polishing through the filter cloth for water liquid can get back to in the cistern again, and then realizes the reuse of water liquid, improves water liquid utilization ratio, reduces and contains clastic sewage discharge, and supports and fixes the filter cloth through square support iron, centre gripping magnet and grid plate, and the filter cloth of being convenient for filters to retrieve after keeping stable and using and washs and recycle.

5. Can fix the pipeline after polishing through fixed column and rubber sleeve, be convenient for clear up its surperficial residue, and through the effect of magnet piece, can effectively adsorb the iron piece in the residue and retrieve, avoid the iron piece direct discharge iron fillings pollution that cause.

To sum up, the grinding machanism and the cooperation of interior grinding component of the same layer, can carry out surface and internal surface to the pipeline of different pipe diameters and wall thickness and polish simultaneously, and multilayer grinding machanism's setting, be convenient for carry out the pipeline of multiple pipe diameter and wall thickness simultaneously and polish, the efficiency of polishing has effectively been improved, the problem of simplex position polisher inefficiency has been solved, and spray through spraying the mechanism, the shower water is retrieved, the recovery of iron fillings, reduce the dust pollution of the in-process of polishing, reduce the water waste that the shower water runs off and the soil pollution that iron fillings after the processing discharged at will, the purpose of environmental protection saving has been reached, more be fit for the production theory of the current generation environmental protection.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the construction of the grinding mechanism of the present invention;

FIG. 3 is a schematic view of the mounting structure of the different-group transmission belt of the present invention;

FIG. 4 is a schematic structural view of the internal grinding assembly of the present invention;

FIG. 5 is a schematic structural view of a movable slot block of the present invention;

FIG. 6 is a schematic structural view of the spray mechanism of the present invention;

FIG. 7 is a schematic view of the mounting structure of the transmission rod of the present invention;

FIG. 8 is a schematic structural view of the region A in FIG. 6 according to the present invention;

FIG. 9 is a partial cross-sectional view of the present invention;

FIG. 10 is a schematic structural diagram of the region B in FIG. 9 according to the present invention;

FIG. 11 is a schematic structural view of an aftertreatment mechanism of the invention;

FIG. 12 is a schematic flow chart of the polishing step of the present invention;

reference numbers in the figures: 1. a substrate; 2. a support pillar; 3. mounting a column;

4. a polishing mechanism; 401. fixing the end rod; 402. a fixed shaft; 403. a support roller; 404. a square barrel sliding sleeve; 405. a butterfly bolt; 406. an anti-slip rubber strip; 407. a side stiffener; 408. installing an end rod; 409. grinding the shaft; 410. grinding a roller; 411. the same group of transmission belts; 412. polishing the motor; 413. a different set of drive belts;

5. an internal grinding assembly; 501. a fitting groove; 502. fixing the groove block; 503. a movable groove block; 504. An adjustment groove; 505. adjusting the screw rod; 506. internally grinding the shaft; 507. an inner grinding roller; 508. a butterfly nut;

6. a spraying mechanism; 601. a reinforcing bottom plate; 602. a reservoir; 603. tightening the screw; 604. tightening the slide block; 605. tightening the belt pulley; 606. a connecting shaft; 607. a driven pulley; 608. a driving pulley; 609. a linkage belt; 610. a turntable; 611. a transmission rod; 612. a compensation lever; 613. A piston rod; 614. a water inlet square cylinder; 615. a water inlet one-way valve; 616. a drain check valve; 617. Spraying a main pipe; 618. a branch pipe; 619. a shower head;

7. a waste liquid through groove; 8. square supporting iron; 9. a grid plate; 10. filtering cloth; 11. a clamping magnet;

12. a post-processing mechanism; 1201. a loading frame; 1202. a cleaning tank; 1203. a handle bar; 1204. fixing a column; 1205. a rubber sleeve; 1206. and a magnet piece.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.