CN113427385A - Material processing polishing device based on one-dimensional variable multidimensional principle - Google Patents

Abstract

The invention discloses a polishing device for material processing based on a one-dimensional to multi-dimensional principle, which comprises an omnibearing fine grinding and polishing main body, a cutting type multi-dimensional noise reduction polishing device, a porous material type intermediary combined cyclone circulation dust removal device, a contradiction type split lateral gravity compensation magnetic suspension limiting device and a sequential connection type combined dynamic characteristic transmission device. The invention belongs to the technical field of polishing for plate processing, and particularly relates to a polishing device for plate processing based on a one-dimensional variable multidimensional principle; according to the contradiction that the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing device can generate noise in the polishing process according to the quiet situation that the plate processing process is quiet, the plate can generate noise pollution in the polishing process to influence workers and the surrounding environment, and the technical theory of the porous material principle is creatively applied to the technical field of plate processing polishing.

Description

Material processing polishing device based on one-dimensional variable multidimensional principle

Technical Field

The invention belongs to the technical field of polishing for plate processing, and particularly relates to a polishing device for plate processing based on a one-dimensional variable multi-dimensional principle.

Background

Polishing refers to a process of reducing the roughness of a workpiece surface by mechanical, chemical, or electrochemical actions to obtain a bright, flat surface. The surface of a workpiece is modified by a polishing tool to obtain a smooth surface or mirror gloss, and after the plate is formed, burrs or particles exist on the surface of the plate, so that the surface of the plate is uneven, and the use requirements of people cannot be met. Therefore, some polishing equipment is required to polish the surface of the plate, so as to remove burrs or particles on the surface of the plate, so that the surface of the plate is smooth and flat.

In the prior art, a grinding wheel polishing device is used for polishing a plate, because the size of a grinding wheel cannot be too large (the grinding wheel is too large in size, heavy in weight, difficult to drive by a motor and particularly power-consuming), the whole plate can be processed only by grinding the plate left and right and back and forth, the processing precision is low, the processed plate often has a slightly stepped surface, the processing efficiency is low, a large amount of sawdust is generated in the processing process, the working environment is adversely affected, and the improvement is necessary. The existing plate polishing machine can only process plates of a single model, and plates of other models need different polishing equipment, so that the cost is increased, the limited space is occupied, the working efficiency is greatly reduced, the consumed time is more, and the noise is high.

Disclosure of Invention

In order to solve the existing problems, the invention provides a polishing device for material processing based on a one-dimensional to multi-dimensional principle, according to the contradiction that noise pollution is generated in the process of plate processing and the plate is not quiet and the workers and the surrounding environment are affected, and a cutting type multi-dimensional omnibearing fine polishing sheet and a cutting type multi-dimensional omnibearing fine flexible polishing sheet generate noise in the polishing process, the technical theory of a porous material principle (an object is changed into a porous object or added with porosity if the object has a porous structure, useful substances or functions are introduced by using the porous structure) and a versatility principle (the object has a composite function to replace other objects) is creatively applied to the technical field of polishing for plate processing, and the output end of a cutting type multi-dimensional noise-reducing omnibearing fine polishing primary-level motor drives a friction lossless fine polishing primary gear to rotate, the friction lossless type fine grinding and polishing one-level gear rotates to drive the friction lossless type fine grinding and polishing one-level gear block to rotate, the friction lossless type fine grinding and polishing one-level gear block rotates to drive the omnibearing multidimensional type noise reduction fine grinding one-level turntable to rotate, the omnibearing multidimensional type noise reduction fine grinding one-level turntable rotates to drive the cutting type multidimensional type omnibearing fine flexible grinding piece and the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing one-level supporting rod to rotate, the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing two-level motor rotates to drive the omnibearing multidimensional type fine grinding two-level turntable to rotate, the omnibearing multidimensional type fine grinding two-level turntable rotates to drive the cutting type multidimensional type omnibearing fine grinding piece to rotate, the plate is ground, the cutting type multidimensional type omnibearing fine flexible grinding piece has a cleaning effect on the surface of the plate, sounds generated by grinding enter the multidimensional type noise reduction omnibearing fine grinding and polishing sound elimination hole to form the multidimensional type noise reduction omnibearing fine grinding and polishing one-level gear block to rotate In the grinding and polishing silencing cavity, the reflection and the newly-incoming sound wave are mutually offset to realize the noise reduction effect, and the technical problems that the plate is quiet in the processing process, the noise pollution is generated in the grinding process of the plate, the working personnel and the surrounding environment are influenced, and the noise is generated in the polishing process of the cutting type multidimensional omnibearing fine polishing sheet and the cutting type multidimensional omnibearing fine flexible polishing sheet are not quiet; according to the contradiction that the plate needs to move, needs to move horizontally and does not move, and cannot swing while moving horizontally, the technical theory of the division principle (dividing an object into mutually independent parts or dividing the object into parts which are easy to assemble and disassemble) and the weight compensation principle (combining a certain object and another object which can provide lifting force to compensate the weight) is innovatively applied to the technical field of polishing for plate processing, because the traditional plate processing needs to grind and process left, right, front and back to finish processing the whole plate, the processing precision is low, the processed plate often has a slightly stepped surface, the processing efficiency is low, and the cutting type multi-dimensional noise reduction polishing device and the contradiction type division type lateral gravity compensation magnetic suspension limiting device are utilized, the limiting and polishing in the processing process of the plate are realized, and the technical problems that the plate needs to move horizontally and does not move or move, and the plate cannot swing while moving horizontally in the processing process of the plate are solved; according to the method, a large amount of sawdust is generated in the plate processing process, a technical theory based on an intermediary principle (using the intermediary to realize required actions) is creatively applied to the technical field of polishing for plate processing, and the sawdust is cleaned by utilizing a porous material type intermediary combined type cyclone circulation dust removal device; according to the contradiction that the existing plate polishing machine needs to change, polish plates of different types and does not change, and properly process plates of a single type, the technical theory of a dynamic characteristic principle (automatically adjusting an object to enable the object to have the best performance in each action and stage or dividing the structure of the object into a plurality of components which can be changed and matched with each other) is creatively applied to the technical field of polishing for plate processing, and the plates of different types are transported by utilizing an order connection type combined dynamic characteristic transmission device, so that the technical problems that the plate polishing machine needs to change, polish plates of different types and does not change, and properly process plates of a single type are solved.

The technical scheme adopted by the invention is as follows: the invention relates to a polishing device for material processing based on a one-dimensional variable multidimensional principle, which comprises an omnibearing fine grinding and polishing main body, a cutting type multidimensional noise reduction and polishing device, a porous material type intermediary combined cyclone circulation dust removal device, a contradiction type split lateral gravity compensation magnetic suspension limiting device and an order connection type combined dynamic characteristic transmission device, wherein the cutting type multidimensional noise reduction and polishing device is arranged in the omnibearing fine grinding and polishing main body; the omnibearing fine grinding and polishing main body comprises a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case, a sequence connection type combined dynamic characteristic transmission feeding case, a sequence connection type combined dynamic characteristic transmission discharging case and a porous material type intermediate combination type cyclone circulation circulating dust removal case, wherein the sequence connection type combined dynamic characteristic transmission feeding case is arranged on one side of the omnibearing fine grinding and polishing main body, the sequence connection type combined dynamic characteristic transmission discharging case is arranged on the other side of the omnibearing fine grinding and polishing main body, one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack is arranged on the sequence connection type combined dynamic characteristic transmission feeding case, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack is arranged on the sequence connection type combined dynamic characteristic transmission discharging case, the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing machine case is arranged on the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack, one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing machine case is communicated and arranged on the side wall of the order-linked combined dynamic characteristic transmission feeding machine case, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing machine case is communicated and arranged on the side wall of the order-linked combined dynamic characteristic transmission feeding machine case, and the porous material type intermediary combined cyclone circulation dust removal box is arranged on the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing machine case; the cutting type multidimensional noise-reducing polishing device comprises a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder, a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor, a friction lossless type fine grinding and polishing primary gear block, a friction lossless type fine grinding and polishing primary bearing, an omnibearing multidimensional noise-reducing fine grinding primary turntable, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary motor, an omnibearing multidimensional fine grinding secondary turntable, a friction lossless type fine grinding and polishing annular chute, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary supporting rod, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary supporting rod, a cutting type gear type, A friction lossless type primary fine grinding and polishing pulley, a friction lossless type secondary fine grinding and polishing pulley, a cutting type multidimensional omnibearing fine polishing sheet, a cutting type multidimensional omnibearing fine flexible polishing sheet, an intermediary combined cyclone circulating dust removal air outlet, a multidimensional noise reduction omnibearing fine grinding and polishing sound elimination hole, a multidimensional noise reduction omnibearing fine grinding and polishing sound elimination cavity and a multidimensional cutting type noise reduction omnibearing fine grinding and polishing secondary fixed block, wherein the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder is arranged at the upper end of the inner wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case, the multidimensional cutting type noise reduction omnibearing fine grinding and polishing primary fixed block is arranged at the output end of the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder, and the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder is arranged in the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case The multi-dimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block is arranged at the output end of the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder, the cutting type multi-dimensional noise-reducing omnibearing fine grinding and polishing primary motor is arranged in the multi-dimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block, the friction lossless type fine grinding and polishing primary gear is arranged at the output end of the cutting type multi-dimensional noise-reducing omnibearing fine grinding and polishing primary motor, one end of the friction lossless type fine grinding and polishing primary bearing is communicated with the lower end of the multi-dimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block, the omnibearing multi-dimensional noise-reducing fine grinding primary turntable is communicated with the other end of the friction lossless type fine grinding and polishing primary bearing, and the friction lossless type fine grinding and polishing primary toothed block annular array is arranged at the upper end of the omnibearing multi-dimensional noise-reducing fine grinding and polishing primary turntable, the friction lossless type fine grinding and polishing primary gear and the friction lossless type fine grinding and polishing primary gear block are connected in a meshing rotation mode, the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary motor is arranged at the lower end of the omnibearing multidimensional noise-reducing fine grinding and polishing primary turntable, the omnibearing multidimensional fine grinding and polishing secondary turntable is arranged at the output end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary motor, the friction lossless type fine grinding and polishing annular chute is arranged in the omnibearing multidimensional noise-reducing fine grinding and polishing primary turntable, the friction lossless type fine grinding and polishing primary pulley is arranged in the friction lossless type fine grinding and polishing annular chute in a sliding mode, the friction lossless type fine grinding and polishing secondary pulley is arranged in the friction lossless type fine grinding and polishing annular chute in a sliding mode, and one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary support rod is arranged on the friction lossless type fine grinding and polishing primary pulley, the device comprises a cutting type multidimensional noise reduction omnibearing fine grinding and polishing primary support rod, a friction lossless type fine grinding and polishing secondary support rod, a cutting type multidimensional noise reduction omnibearing fine grinding and polishing secondary support rod, an agent combination type cyclone circulating dust removal air outlet hole, a multidimensional noise reduction omnibearing fine grinding primary turntable, a multidimensional noise reduction omnibearing fine grinding and polishing sound elimination hole, an omnibearing multidimensional noise reduction omnibearing fine grinding and sound elimination hole and a friction lossless type fine grinding and polishing secondary support rod, wherein the other end of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing primary support rod is arranged on an omnibearing multidimensional fine grinding and polishing secondary support rod, one end of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing secondary support rod is arranged on a friction lossless type fine grinding and polishing secondary support rod, the other end of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing secondary support rod is arranged on an omnibearing multidimensional fine grinding and polishing secondary turntable, the cutting type multidimensional noise reduction omnibearing fine grinding and polishing secondary support rod is detachably arranged at the lower end of the omnibearing multidimensional noise reduction fine grinding and polishing primary turntable, the air outlet hole is arranged at the lower end of the omnibearing multidimensional noise reduction fine grinding and polishing secondary support rod, the noise reduction omnibearing fine grinding and polishing secondary support rod, and the noise reduction omnibearing fine grinding and polishing rod, and the noise elimination hole are arranged on a bearing surface of the whole The lower end of a first-level turntable, the multidimensional noise-reducing omnibearing fine grinding and polishing silencing cavity is arranged in the omnibearing multidimensional noise-reducing fine grinding first-level turntable, the multidimensional cutting type noise-reducing omnibearing fine grinding and polishing second-level fixed block is arranged at the upper end of the inner wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing first-level cylinder is started, the cutting type multidimensional noise-reducing polishing device is lowered to a proper position, the output end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing first-level motor drives a friction lossless type fine grinding and polishing first-level gear to rotate, the friction lossless type fine grinding and polishing first-level gear drives a friction lossless type fine grinding and polishing first-level gear to rotate, and the friction type fine grinding and polishing first-level gear rotates to drive the omnibearing multidimensional noise-reducing fine grinding first-level turntable to rotate, all-round multidimensional type noise reduction meticulous polishing one-level carousel rotates and drives and tailors the all-round meticulous flexibility of formula multi-dimensional type noise reduction and polish the one-level bracing piece and rotates with the all-round meticulous polishing one-level bracing piece of formula multi-dimensional type noise reduction, the all-round meticulous polishing two-level motor of the all-round meticulous polishing of formula multi-dimensional type rotates and drives the all-round meticulous polishing two-level carousel of all-round multi-dimensional type noise reduction and rotate, polish to panel, the all-round meticulous flexibility of formula multi-dimensional type noise reduction polishes the piece and has clean effect to panel surface simultaneously, the sound of polishing production gets into the all-round meticulous polishing amortization intracavity of multi-dimensional type noise reduction through the all-round meticulous polishing amortization hole of multi-dimensional noise reduction, through reflection and the mutual offset of sound wave of newly coming in, the effect of making an uproar is fallen.

Further, the porous material type intermediate combined cyclone circulation dust removal device comprises a porous material type intermediate combined cyclone circulation dust removal three-level motor, an intermediate combined porous material type cyclone circulation dust removal two-level gear, an intermediate combined porous material type cyclone circulation dust removal three-level gear, a cyclone circulation circulating type friction nondestructive dust removal two-level bearing, a porous material type intermediate combined cyclone circulation dust removal dust collection pipe, a porous material type intermediate combined cyclone circulation dust removal hole, a porous material type intermediate combined cyclone circulation dust removal air conveying pipeline, a porous material type intermediate combined cyclone circulation dust removal air pump, a cyclone circulation circulating type friction nondestructive dust removal three-level bearing, a cyclone circulation circulating type friction nondestructive dust removal three-level turntable, an air flow driving cyclone circulation type dust removal power paddle, a cyclone circulation type dust removal motor, a cyclone circulation, The airflow-driven cyclone circulation type dust removal viscous adsorption small ball, the intermediary combination type porous material type cyclone circulation dust removal filter cap and the intermediary combination type porous material type cyclone circulation dust removal telescopic pipeline are arranged, the porous material type intermediary combination type cyclone circulation dust removal three-level motor is arranged at the lower end of the multidimensional cutting type noise reduction all-dimensional fine grinding and polishing two-level fixed block, the intermediary combination type porous material type cyclone circulation dust removal three-level gear is arranged at the output end of the porous material type intermediary combination type cyclone circulation dust removal three-level motor, the cyclone circulation type friction lossless type dust removal two-level bearing is communicated with the upper end of the inner wall of the cutting type multidimensional noise reduction all-dimensional fine grinding and polishing case, the intermediary combination type porous material type cyclone circulation dust removal two-level gear is communicated with the cyclone circulation type friction lossless type dust removal two-level bearing, the middle combined type porous material type cyclone circulation dust removal secondary gear and the middle combined type porous material type cyclone circulation dust removal tertiary gear are connected in a meshing rotation mode, the porous material type middle combined type cyclone circulation dust removal dust collection pipe is arranged at the lower end of the cyclone circulation type friction nondestructive dust removal secondary bearing in a penetrating mode, the porous material type middle combined type cyclone circulation dust removal hole is formed in the porous material type middle combined type cyclone circulation dust removal dust collection pipe, one end of the porous material type middle combined type cyclone circulation dust removal gas transmission pipeline is arranged on the cyclone circulation type friction nondestructive dust removal secondary bearing in a penetrating mode, the other end of the porous material type middle combined type cyclone circulation dust removal gas transmission pipeline is arranged in the porous material type middle combined type cyclone circulation dust removal box in a penetrating mode, and the porous material type middle combined type cyclone circulation dust removal gas pump is arranged in the porous material type middle combined type cyclone circulation dust removal gas transmission box The cyclone circulation type friction nondestructive dust removal three-stage bearing is arranged at the upper end of the outer wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case in a penetrating manner, the cyclone circulation type friction nondestructive dust removal three-stage turntable is arranged on the cyclone circulation type friction nondestructive dust removal three-stage bearing in a penetrating manner, the intermediary combination type porous material type cyclone circulation dust removal filter cap is arranged on the cyclone circulation type friction nondestructive dust removal three-stage turntable in a disassembling manner, the airflow driving type cyclone circulation type dust removal viscous adsorption small ball disassembling annular array is arranged on the cyclone circulation type friction nondestructive dust removal three-stage turntable, the airflow driving type cyclone circulation type dust removal power paddle annular array is arranged on the side wall of the cyclone circulation type friction nondestructive dust removal three-stage turntable, and one end of the intermediary combination type porous material type cyclone circulation dust removal telescopic pipeline is arranged on the side wall of the cyclone circulation type friction nondestructive dust removal three-stage turntable in a penetrating manner On the friction nondestructive type dust removal three-stage bearing, the other end of the intermediary combined type porous material type cyclone circulation dust removal telescopic pipeline is communicated with and arranged on the intermediary combined type cyclone circulation dust removal air outlet hole, the output end of the porous material type intermediary combined type cyclone circulation dust removal three-stage motor rotates to drive the intermediary combined type porous material type cyclone circulation dust removal three-stage gear to rotate, the intermediary combined type porous material type cyclone circulation dust removal three-stage gear rotates to drive the intermediary combined type porous material type cyclone circulation dust removal two-stage gear to rotate, the intermediary combined type porous material type cyclone circulation dust removal two-stage gear rotates to drive the porous material type intermediary combined type cyclone circulation dust removal dust collection pipe to rotate, the porous material type intermediary combined type cyclone circulation dust collection air pump is started to suck the sawdust generated by polishing into the porous material type intermediary combined type cyclone circulation dust collection box, airflow generated by the porous material type intermediary combined type cyclone circulation dust removal air pump blows airflow to drive the cyclone circulation type friction lossless type dust removal three-level rotary table to rotate, the cyclone circulation type friction lossless type dust removal three-level rotary table rotates to drive the airflow driving type cyclone circulation type dust removal viscous adsorption small balls to rotate, pumped sawdust is adsorbed on the airflow driving type cyclone circulation type dust removal viscous adsorption small balls, and then purified airflow is blown out from the intermediary combined type cyclone circulation dust removal air outlet through the intermediary combined type porous material type cyclone circulation dust removal telescopic pipeline to prevent the sawdust from entering the multidimensional type noise reduction omnibearing fine grinding and polishing silencing cavity.

Further, the spear shield type split lateral gravity compensation magnetic suspension limiting device comprises a spear shield type split lateral gravity compensation magnetic suspension primary limiting device, a contradiction type split lateral gravity compensation magnetic suspension secondary limiting device and a contradiction type split lateral gravity compensation magnetic suspension tertiary limiting device, the spear shield type split lateral gravity compensation magnetic suspension primary limiting device is arranged on one side of the lower end of the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case, the spear shield type split lateral gravity compensation magnetic suspension secondary limiting device is arranged on the middle side of the lower end of the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case, and the spear shield type split lateral gravity compensation magnetic suspension tertiary limiting device is arranged on the other side of the lower end of the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case; the spear shield type split lateral gravity compensation magnetic suspension primary limiting device comprises a dynamic characteristic split lateral gravity compensation primary limiting telescopic pipe, a dynamic characteristic split lateral gravity compensation secondary limiting telescopic pipe, a contradiction type split lateral gravity compensation magnetic suspension primary electromagnet, a contradiction type split lateral gravity compensation magnetic suspension primary electromagnetic winding, a split type contradictory lateral gravity compensation magnetic suspension primary clamping plate and split type contradictory lateral gravity compensation magnetic suspension primary transmission rollers, wherein the dynamic characteristic split lateral gravity compensation primary limiting telescopic pipe is arranged on the side wall of the cutting type multi-dimensional noise reduction omnibearing fine grinding and polishing case, the split type contradictory lateral gravity compensation magnetic suspension primary clamping plate is arranged at the telescopic end of the dynamic characteristic split type lateral gravity compensation primary limiting telescopic pipe, and the split type contradictory lateral gravity compensation magnetic suspension primary transmission rollers are rotatably arranged on the split type contradictory lateral gravity compensation magnetic suspension primary transmission rollers On the one-level grip block of magnetic suspension, the spacing flexible pipe of dynamic characteristic segmentation side direction gravity compensation second grade is located and is tailor on the lateral wall of the all-round meticulous polish-polish machine case of formula multi-dimensional type noise reduction, the flexible end of the spacing flexible pipe of dynamic characteristic segmentation side direction gravity compensation second grade is located on the one-level grip block of segmentation contradiction side direction gravity compensation magnetic suspension, lance shield type segmentation side direction gravity compensation magnetic suspension one-level electromagnetic winding is located and is tailor on the lateral wall of the all-round meticulous polish-polish machine case of formula multi-dimensional type noise reduction, lance shield type segmentation side direction gravity compensation magnetic suspension one-level electro-magnet is located on the one-level grip block of segmentation contradiction side direction gravity compensation magnetic suspension one-level grip block.

Further, the spear shield type split lateral gravity compensation magnetic suspension second-stage limiting device comprises a dynamic characteristic split lateral gravity compensation three-stage limiting telescopic pipe, a dynamic characteristic split lateral gravity compensation four-stage limiting telescopic pipe, a contradiction type split lateral gravity compensation magnetic suspension second-stage electromagnet, a contradiction type split lateral gravity compensation magnetic suspension second-stage electromagnetic winding, a split contradictory type lateral gravity compensation magnetic suspension second-stage clamping plate and split type contradictory type lateral gravity compensation magnetic suspension second-stage transmission rollers, wherein the dynamic characteristic split lateral gravity compensation three-stage limiting telescopic pipe is arranged on the side wall of the cutting type multi-dimensional noise reduction omnibearing fine grinding and polishing case, the split type contradictory type lateral gravity compensation magnetic suspension second-stage clamping plate is arranged at the telescopic end of the dynamic characteristic split lateral gravity compensation three-stage limiting telescopic pipe, and the split type contradictory type lateral gravity compensation magnetic suspension second-stage transmission rollers are rotatably arranged at the side of the split shield type spear side On to gravity compensation magnetic suspension second grade grip block, the spacing flexible pipe of dynamic characteristic segmentation side direction gravity compensation level four is located and is tailor on the lateral wall of the all-round meticulous polishing machine case of formula multi-dimensional type noise reduction, the flexible end of the spacing flexible pipe of dynamic characteristic segmentation side direction gravity compensation level four is located on the segmentation contradiction type side direction gravity compensation magnetic suspension second grade grip block, lance shield type segmentation side direction gravity compensation magnetic suspension second grade electromagnetic winding is located and is tailor on the lateral wall of the all-round meticulous polishing machine case of formula multi-dimensional type noise reduction, lance shield type segmentation side direction gravity compensation magnetic suspension second grade electro-magnet is located on the segmentation contradiction type side direction gravity compensation magnetic suspension second grade grip block.

Further, the spear shield type split lateral gravity compensation magnetic suspension three-level limiting device comprises a dynamic characteristic split lateral gravity compensation five-level limiting telescopic pipe, a dynamic characteristic split lateral gravity compensation six-level limiting telescopic pipe, a contradiction type split lateral gravity compensation magnetic suspension three-level electromagnet, a contradiction type split lateral gravity compensation magnetic suspension three-level electromagnetic winding, a split contradiction type lateral gravity compensation magnetic suspension three-level clamping plate and split contradiction type lateral gravity compensation magnetic suspension three-level transmission rollers, wherein the dynamic characteristic split lateral gravity compensation five-level limiting telescopic pipe is arranged on the side wall of the cutting type multi-dimensional noise reduction omnibearing fine grinding and polishing case, the split contradiction type lateral gravity compensation magnetic suspension three-level clamping plate is arranged at the telescopic end of the dynamic characteristic split lateral gravity compensation five-level limiting telescopic pipe, and the split contradiction type lateral gravity compensation magnetic suspension three-level transmission rollers are rotatably arranged on the split spear type lateral gravity compensation magnetic suspension three-level limiting telescopic pipe On to the tertiary grip block of gravity compensation magnetic suspension, the spacing flexible pipe of six grades of spacing of dynamic characteristic split type lateral gravity compensation is located and is tailor on the lateral wall of the all-round meticulous polishing machine case of formula multi-dimensional type noise reduction, the flexible end of the spacing flexible pipe of six grades of spacing of dynamic characteristic split type lateral gravity compensation locates on the tertiary grip block of split type contradiction type lateral gravity compensation magnetic suspension, the tertiary electromagnetic winding of lance shield type split type lateral gravity compensation magnetic suspension is located and is tailor on the lateral wall of the all-round meticulous polishing machine case of formula multi-dimensional type noise reduction, the tertiary electro-magnet of lance shield type split type lateral gravity compensation magnetic suspension is located on the tertiary grip block of split type contradiction type lateral gravity compensation magnetic suspension, when panel motion to the tertiary stop block department of contradiction type split type lateral gravity compensation magnetic suspension, produces through controlling tertiary electromagnetic winding of split type lateral gravity compensation magnetic suspension of split type lateral gravity and contradiction type lateral gravity compensation magnetic suspension electro-magnet and repels the tertiary electromagnetic of contradiction type lateral gravity compensation magnetic suspension of current contradiction type, and repels the tertiary electromagnetic winding of split type lateral gravity compensation magnetic suspension of split type Force, thereby driving the split type contradictory lateral gravity compensation magnetic suspension third-level clamping plate to move, driving the split type contradictory lateral gravity compensation magnetic suspension third-level transmission roller to move when the split type contradictory lateral gravity compensation magnetic suspension third-level clamping plate moves, thereby limiting the moving plate, when the plate moves to the contradictory type split type lateral gravity compensation magnetic suspension second-level limiting device, the split type contradictory lateral gravity compensation magnetic suspension second-level electromagnetic winding and the contradictory type split type lateral gravity compensation magnetic suspension second-level electromagnet are controlled to generate repulsion force, thereby driving the split type contradictory lateral gravity compensation magnetic suspension second-level clamping plate to move, driving the split type contradictory lateral gravity compensation magnetic suspension second-level transmission roller to move, thereby limiting the moving plate, when the plate moves to the position of the contradiction type split lateral gravity compensation magnetic suspension primary limiting device, the current contradiction type split lateral gravity compensation magnetic suspension primary electromagnetic winding and the contradiction type split lateral gravity compensation magnetic suspension primary electromagnet are controlled to generate repulsion force, so that the split type contradictory lateral gravity compensation magnetic suspension primary clamping plate is driven to move, the split type contradictory lateral gravity compensation magnetic suspension primary clamping plate drives the split type contradictory lateral gravity compensation magnetic suspension primary transmission roller to move, and the plate in motion is limited.

The order connection type combined dynamic characteristic transmitting device comprises an order connection type combined dynamic characteristic transmitting and feeding device, an order connection type combined dynamic characteristic transmitting and transporting device and an order connection type combined dynamic characteristic transmitting and discharging device, wherein the order connection type combined dynamic characteristic transmitting and feeding device is arranged in an order connection type combined dynamic characteristic transmitting and feeding case, the order connection type combined dynamic characteristic transmitting and transporting device is arranged in a cutting type multi-dimensional noise-reducing omnibearing fine grinding and polishing rack, and the order connection type combined dynamic characteristic transmitting and discharging device is arranged in an order connection type combined dynamic characteristic transmitting and discharging case; the order connection type combined dynamic characteristic transmission feeding device comprises a combined order connection type dynamic characteristic first-stage rotating roller, a combined order connection type dynamic characteristic driving four-stage motor, a reverse gravity compensation type first-stage pressurizing fixed rotating roller, a reverse gravity compensation type first-stage sliding chute, a magnetic suspension gravity compensation type first-stage electromagnetic winding, a magnetic suspension gravity compensation type first-stage electromagnet and an order connection type combined dynamic characteristic transmission feeding four-stage bearing, wherein the combined order connection type dynamic characteristic first-stage rotating roller is rotatably arranged on the inner wall of an order connection type combined dynamic characteristic transmission feeding machine box, the combined order connection type dynamic characteristic driving four-stage motor is arranged on the outer wall of the order connection type combined dynamic characteristic transmission feeding machine box, one end of the combined order connection type dynamic characteristic first-stage rotating roller is arranged at the output end of the combined order connection type dynamic characteristic driving four-stage motor, the reverse gravity compensation type first-stage chute is arranged on the order connection type combined dynamic characteristic transmission feeding case, the order connection type combined dynamic characteristic transmission feeding four-stage bearing is arranged on the reverse gravity compensation type first-stage chute in a sliding mode, one end of the reverse gravity compensation type first-stage pressurizing fixed rotating roller is sleeved in the order connection type combined dynamic characteristic transmission feeding four-stage bearing, the magnetic suspension gravity compensation type first-stage electromagnetic winding is arranged at the lower end of the reverse gravity compensation type first-stage chute, and the magnetic suspension gravity compensation type first-stage electromagnet is arranged at the lower end of the order connection type combined dynamic characteristic transmission feeding four-stage bearing; the order connection type combined dynamic characteristic transmitting and transporting device comprises a combined order connection type dynamic characteristic driving five-stage motor, an order connection type combined dynamic characteristic transmitting and transporting transmission roller, an order connection type combined dynamic characteristic transmitting and transporting gear, an order connection type combined dynamic characteristic transmitting and transporting chain and an order connection type combined dynamic characteristic transmitting and transporting rotating belt, wherein the combined order connection type dynamic characteristic driving five-stage motor is arranged at the bottom end of the inner wall of the cutting type multidimensional noise reduction all-dimensional fine grinding and polishing rack, the order connection type combined dynamic characteristic transmitting and transporting transmission roller is rotatably arranged on the inner side wall of the cutting type multidimensional noise reduction all-dimensional fine grinding and polishing rack, the order connection type combined dynamic characteristic transmitting and transporting gear is sleeved on a shaft of the order connection type combined dynamic characteristic transmitting and transporting transmission roller, the order connection type combined dynamic characteristic transmission and transportation chain is sleeved on the order connection type combined dynamic characteristic transmission and transportation gear, one end of the order connection type combined dynamic characteristic transmission and transportation rotating belt is wound and connected at the output end of the combined order connection type dynamic characteristic driving five-stage motor, the other end of the order connection type combined dynamic characteristic transmission and transportation rotating belt is sleeved on a shaft of the order connection type combined dynamic characteristic transmission and transportation transmission roller, a plate to be polished is placed into the order connection type combined dynamic characteristic transmission and feeding case, the order connection type combined dynamic characteristic transmission and feeding device is started, the reverse gravity compensation type first-stage pressurization fixed rotation compensation roller is lifted by controlling the current of the magnetic suspension gravity type first-stage electromagnetic winding and the repulsion force generated by the magnetic suspension gravity compensation type first-stage electromagnet, placing the plate on a combined order connection type dynamic characteristic first-stage rotating roller, driving the output end of a four-stage motor to rotate by the combined order connection type dynamic characteristic first-stage rotating roller, changing repulsive force into attractive force by controlling current between a magnetic suspension gravity compensation type first-stage electromagnetic winding and a magnetic suspension gravity compensation type first-stage electromagnet after the plate is placed, enabling the feeding process of the plate to be more stable, starting a order connection type combined dynamic characteristic transmitting and transporting device, driving the output end of a five-stage motor to rotate by the combined order connection type combined dynamic characteristic transmitting and transporting rotating belt, driving the order connection type combined dynamic characteristic transmitting and transporting gear and the order connection type combined dynamic characteristic transmitting and transporting roller to rotate by the order connection type combined dynamic characteristic transmitting and transporting rotating belt, the sequence connection type combined dynamic characteristic transmission conveying gear rotates to drive the sequence connection type combined dynamic characteristic transmission conveying chain to rotate, and the plate is conveyed.

Further, the order-joining type combined dynamic characteristic transmitting and discharging device comprises a combined order-joining type dynamic characteristic secondary rotating roller, a combined order-joining type dynamic characteristic driving six-stage motor, a reverse gravity compensation type secondary pressurizing fixed rotating roller, a reverse gravity compensation type secondary chute, a magnetic suspension gravity compensation type secondary electromagnetic winding, a magnetic suspension gravity compensation type secondary electromagnet and an order-joining type combined dynamic characteristic transmitting and feeding five-stage bearing, wherein the combined order-joining type dynamic characteristic secondary rotating roller is rotatably arranged on the inner wall of the order-joining type combined dynamic characteristic transmitting and discharging case, the combined order-joining type dynamic characteristic driving six-stage motor is arranged on the outside of the order-joining type combined dynamic characteristic transmitting and discharging case, and the output end of the combined order-joining type dynamic characteristic driving six-stage motor is arranged on the combined order-joining type dynamic characteristic secondary rotating roller, the reverse gravity compensation type secondary chute is arranged on the order connection type combined dynamic characteristic transmission blanking machine case, the order connection type combined dynamic characteristic transmission feeding five-stage bearing is arranged on the reverse gravity compensation type secondary chute in a sliding mode, one end of the reverse gravity compensation type secondary pressurization fixed rotary drum is sleeved in the order connection type combined dynamic characteristic transmission feeding five-stage bearing, the magnetic suspension gravity compensation type secondary electromagnetic winding is arranged at the lower end of the reverse gravity compensation type secondary chute, the magnetic suspension gravity compensation type secondary electromagnet is arranged at the lower end of the order connection type combined dynamic characteristic transmission feeding five-stage bearing, the polished plate is transported out from the order connection type combined dynamic characteristic transmission blanking device, and the reverse gravity compensation type secondary pressurization fixed rotary drum is lifted by controlling the current of the magnetic suspension gravity compensation type secondary electromagnetic winding and the repulsive force generated by the magnetic suspension gravity compensation type secondary electromagnet, after the plate enters the combined order connection type dynamic characteristic secondary rotating roller, the current of the magnetic suspension gravity compensation type secondary electromagnetic winding is controlled to change the repulsive force of the magnetic suspension gravity compensation type secondary electromagnetic winding and the magnetic suspension gravity compensation type secondary electromagnet into attractive force, the combined order connection type dynamic characteristic drives the output end of the six-stage motor to rotate to drive the combined order connection type dynamic characteristic secondary rotating roller to rotate, and the plate is subjected to a blanking process.

Further, the reverse gravity compensation type secondary pressurization fixed rotation roller external belt power supply, the magnetic suspension gravity compensation type primary electromagnetic winding external belt power supply, the spear shield type split lateral gravity compensation magnetic suspension type secondary electromagnetic winding external belt power supply, the spear shield type split lateral gravity compensation magnetic suspension type tertiary electromagnetic winding external belt power supply, the combined order connection type dynamic characteristic driving six-level motor external belt power supply, the combined order connection type dynamic characteristic driving five-level motor external belt power supply, the combined order connection type dynamic characteristic driving four-level motor external belt power supply, the cutting type multidimensional type cutting noise reduction omnibearing fine grinding and polishing secondary motor external belt power supply, the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing primary electric belt power supply, the porous material type medium combined type cyclone circulation dust removal three-stage motor is externally connected with a power supply, and the porous material type medium combined type cyclone circulation dust removal air pump is externally connected with the power supply.

The invention with the structure has the following beneficial effects: the invention provides a polishing device for material processing based on one-dimensional variable multidimensional principle, which creatively applies the technical theories of porous material principle (to change an object into a porous object or add a porous object, if the object has a porous structure, useful substances or functions are introduced by utilizing the porous structure) and multi-purpose principle (to enable the object to have a composite function to replace the functions of other objects) to the technical field of polishing for the material processing according to the contradiction that the plate processing is quiet, the plate generates noise pollution in the polishing process, and influences workers and the surrounding environment, and the cutting type multidimensional omnibearing fine polishing sheet and the cutting type multidimensional fine flexible polishing sheet generate noise in the polishing process, and the output end of a cutting type multidimensional noise-reducing omnibearing fine polishing primary motor drives a friction lossless fine polishing primary gear to rotate, the friction lossless type fine grinding and polishing one-level gear rotates to drive the friction lossless type fine grinding and polishing one-level gear block to rotate, the friction lossless type fine grinding and polishing one-level gear block rotates to drive the omnibearing multidimensional type noise reduction fine grinding one-level turntable to rotate, the omnibearing multidimensional type noise reduction fine grinding one-level turntable rotates to drive the cutting type multidimensional type omnibearing fine flexible grinding piece and the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing one-level supporting rod to rotate, the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing two-level motor rotates to drive the omnibearing multidimensional type fine grinding two-level turntable to rotate, the omnibearing multidimensional type fine grinding two-level turntable rotates to drive the cutting type multidimensional type omnibearing fine grinding piece to rotate, the plate is ground, the cutting type multidimensional type omnibearing fine flexible grinding piece has a cleaning effect on the surface of the plate, sounds generated by grinding enter the multidimensional type noise reduction omnibearing fine grinding and polishing sound elimination hole to form the multidimensional type noise reduction omnibearing fine grinding and polishing one-level gear block to rotate In the grinding and polishing silencing cavity, the reflection and the newly-incoming sound wave are mutually offset to realize the noise reduction effect, and the technical problems that the plate is quiet in the processing process, the noise pollution is generated in the grinding process of the plate, the working personnel and the surrounding environment are influenced, and the noise is generated in the polishing process of the cutting type multidimensional omnibearing fine polishing sheet and the cutting type multidimensional omnibearing fine flexible polishing sheet are not quiet; according to the contradiction that the plate needs to move, needs to move horizontally and does not move, and cannot swing while moving horizontally, the technical theory of the division principle (dividing an object into mutually independent parts or dividing the object into parts which are easy to assemble and disassemble) and the weight compensation principle (combining a certain object and another object which can provide lifting force to compensate the weight) is innovatively applied to the technical field of polishing for plate processing, because the traditional plate processing needs to grind and process left, right, front and back to finish processing the whole plate, the processing precision is low, the processed plate often has a slightly stepped surface, the processing efficiency is low, and the cutting type multi-dimensional noise reduction polishing device and the contradiction type division type lateral gravity compensation magnetic suspension limiting device are utilized, the limiting and polishing in the processing process of the plate are realized, and the technical problems that the plate needs to move horizontally and does not move or move, and the plate cannot swing while moving horizontally in the processing process of the plate are solved; according to the method, a large amount of sawdust is generated in the plate processing process, a technical theory based on an intermediary principle (using the intermediary to realize required actions) is creatively applied to the technical field of polishing for plate processing, and the sawdust is cleaned by utilizing a porous material type intermediary combined type cyclone circulation dust removal device; according to the contradiction that the existing plate polishing machine needs to change, polish plates of different types and does not change, and properly process plates of a single type, the technical theory of a dynamic characteristic principle (automatically adjusting an object to enable the object to have the best performance in each action and stage or dividing the structure of the object into a plurality of components which can be changed and matched with each other) is creatively applied to the technical field of polishing for plate processing, and the plates of different types are transported by utilizing an order connection type combined dynamic characteristic transmission device, so that the technical problems that the plate polishing machine needs to change, polish plates of different types and does not change, and properly process plates of a single type are solved.

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.

FIG. 1 is a schematic overall view of a polishing apparatus for material processing based on one-dimensional to multi-dimensional principles of the present invention;

FIG. 2 is a front sectional view of a polishing apparatus for machining a material based on a one-dimensional to multi-dimensional principle according to the present invention;

FIG. 3 is a schematic structural diagram of a contradictory split lateral gravity compensation magnetic levitation limiting device;

FIG. 4 is an overall schematic view of a cutting type noise reduction polishing apparatus of a multi-dimensional type;

FIG. 5 is a schematic view showing the structure of a cutting type noise-reducing polishing apparatus;

FIG. 6 is a bottom view of the cut-out type noise-reducing polishing apparatus;

FIG. 7 is a top sectional view of a middle combined type cyclone circulation dust removal box made of porous materials;

FIG. 8 is a partial enlarged view of portion A of FIG. 5;

FIG. 9 is a partial enlarged view of portion B of FIG. 2;

fig. 10 is a partially enlarged view of a portion C in fig. 2.

Wherein 1, an omnibearing fine grinding and polishing main body, 2, a cutting type multidimensional noise reduction and polishing device, 3, a porous material type intermediate combined cyclone circulation dust removal device, 4, a contradiction type divided lateral gravity compensation magnetic suspension limiting device, 5, a sequence connection type combined dynamic characteristic transmission device, 6, a cutting type multidimensional noise reduction omnibearing fine grinding and polishing rack, 7, a cutting type multidimensional noise reduction omnibearing fine grinding and polishing machine box, 8, a sequence connection type combined dynamic characteristic transmission feeding machine box, 9, a sequence connection type combined dynamic characteristic transmission blanking machine box, 10, a porous material type intermediate combined cyclone circulation dust removal box, 11, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary air cylinder, 12, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary air cylinder, 13, a multidimensional type noise reduction omnibearing fine grinding and polishing primary fixed block, 14. cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor, 15, friction-free type fine grinding and polishing primary gear, 16, friction-free type fine grinding and polishing primary gear block, 17, friction-free type fine grinding and polishing primary bearing, 18, omnibearing multidimensional noise-reducing fine grinding and polishing primary turntable, 19, cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary motor, 20, omnibearing multidimensional type fine grinding and polishing secondary turntable, 21, friction-free type fine grinding and polishing annular chute, 22, cutting type multidimensional type noise-reducing omnibearing fine grinding and polishing primary support rod, 23, cutting type multidimensional type noise-reducing omnibearing fine grinding and polishing secondary support rod, 24, friction-free type fine grinding and polishing primary pulley, 25, friction-free type fine grinding and polishing secondary pulley, 26, cutting type multidimensional type omnibearing fine grinding and polishing sheet, 27. a cutting type multidimensional omnibearing fine flexible polishing sheet, 28, an intermediary combined cyclone circulating dust removal air outlet, 29, a multidimensional noise reduction omnibearing fine grinding and polishing sound-eliminating hole, 30, a multidimensional noise reduction omnibearing fine grinding and polishing sound-eliminating cavity, 31, a multidimensional cutting type noise reduction omnibearing fine grinding and polishing secondary fixed block, 32, a porous material type intermediary combined cyclone circulating dust removal three-level motor, 33, an intermediary combined porous material type cyclone circulating dust removal secondary gear, 34, an intermediary combined porous material type cyclone circulating dust removal three-level gear, 35, a cyclone circulating type friction nondestructive dust removal secondary bearing, 36, a porous material type intermediary combined cyclone circulating dust removal dust collection pipe, 37, a porous material type intermediary combined cyclone circulating dust removal hole, 38, a porous material type intermediary combined cyclone circulating dust removal air transmission pipeline, 39. a porous material type medium combined type cyclone circulation dust removal air pump, 40, a cyclone circulation type friction lossless type dust removal three-level bearing, 41, a cyclone circulation type friction lossless type dust removal three-level turntable, 42, an air flow driven type cyclone circulation type dust removal power paddle, 43, an air flow driven type cyclone circulation type dust removal viscous adsorption small ball, 44, a medium combined type porous material type cyclone circulation dust removal filter cap, 45, a medium combined type porous material type cyclone circulation dust removal telescopic pipeline, 46, a contradiction type split type lateral gravity compensation magnetic suspension first-level limiting device, 47, a contradiction type split type lateral gravity compensation magnetic suspension second-level limiting device, 48, a contradiction type split type lateral gravity compensation magnetic suspension third-level limiting device, 49, a dynamic characteristic split type lateral gravity compensation first-level limiting telescopic pipe, 50, and a dynamic characteristic split type lateral gravity compensation second-level telescopic pipe, 51. a spear shield type split lateral gravity compensation magnetic suspension primary electromagnet, 52, a contradiction type split lateral gravity compensation magnetic suspension primary electromagnetic winding, 53, a split contradiction type lateral gravity compensation magnetic suspension primary clamping plate, 54, a split contradiction type lateral gravity compensation magnetic suspension primary transmission roller, 55, a dynamic characteristic split lateral gravity compensation three-stage limiting telescopic tube, 56, a dynamic characteristic split lateral gravity compensation four-stage limiting telescopic tube, 57, a contradiction type split lateral gravity compensation magnetic suspension secondary electromagnet, 58, a contradiction type split lateral gravity compensation magnetic suspension secondary electromagnetic winding, 59, a split contradiction type lateral gravity compensation magnetic suspension secondary clamping plate, 60, a split contradiction type lateral gravity compensation magnetic suspension secondary transmission roller, 61, a dynamic characteristic split lateral gravity compensation five-stage limiting telescopic tube, 62. a dynamic characteristic dividing type lateral gravity compensation six-stage limit extension pipe, 63, a contradiction type dividing type lateral gravity compensation magnetic suspension three-stage electromagnet, 64, a contradiction type dividing type lateral gravity compensation magnetic suspension three-stage electromagnetic winding, 65, a dividing type contradiction type lateral gravity compensation magnetic suspension three-stage clamping plate, 66, a dividing type contradiction type lateral gravity compensation magnetic suspension three-stage transmission roller, 67, a sequence connection type combined dynamic characteristic transmission feeding device, 68, a sequence connection type combined dynamic characteristic transmission and transportation device, 69, a sequence connection type combined dynamic characteristic transmission blanking device, 70, a combined sequence connection type dynamic characteristic first-stage rotating roller, 71, a combined sequence connection type dynamic characteristic driving four-stage motor, 72, a reverse gravity compensation type first-stage pressurizing fixed rotating roller, 73, a reverse gravity compensation type first-stage chute, 74, Magnetic suspension gravity compensation type first-level electromagnetic winding, 75 magnetic suspension gravity compensation type first-level electromagnet, 76 sequence connection type combined dynamic characteristic transmission feeding four-level bearing, 77 combined sequence connection type dynamic characteristic driving five-level motor, 78 sequence connection type combined dynamic characteristic transmission roller, 79 sequence connection type combined dynamic characteristic transmission gear, 80 sequence connection type combined dynamic characteristic transmission and transmission chain, 81 sequence connection type combined dynamic characteristic transmission and transmission rotating belt, 82 combined sequence connection type dynamic characteristic second-level rotating roller, 83 combined sequence connection type dynamic characteristic driving six-level motor, 84 reverse gravity compensation type second-level pressurizing fixed rotating roller, 85 reverse gravity compensation type second-level sliding chute, 86 magnetic suspension gravity compensation type second-level electromagnetic winding, 87, A magnetic suspension gravity compensation type two-stage electromagnet 88 is sequentially connected with a combined dynamic characteristic transmission feeding five-stage bearing.

Detailed Description

The technical solutions of the present invention will be further described in detail with reference to specific embodiments, and the technical features or connection relationships described in the present invention are not described in detail in the prior art. The present invention will be described in further detail with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in figures 1, 2, 4, 5 and 6, as shown in fig. 8, the present invention provides a polishing device for material processing based on one-dimensional to multidimensional principle, comprising an omnidirectional fine grinding and polishing main body 1, a cutting type multidimensional noise reduction and polishing device 2, a porous material type intermediary combined type cyclone circulation dust removal device 3, a contradiction type split type lateral gravity compensation magnetic suspension limiting device 4 and an order connection type combined dynamic characteristic transmission device 5, wherein the cutting type multidimensional noise reduction and polishing device 2 is arranged in the omnidirectional fine grinding and polishing main body 1, the porous material type intermediary combined type cyclone circulation dust removal device 3 is arranged on the omnidirectional fine grinding and polishing main body 1, the contradiction type split type lateral gravity compensation magnetic suspension limiting device 4 is arranged in the omnidirectional fine grinding and polishing main body 1, and the order connection type combined dynamic characteristic transmission device 5 is arranged in the omnidirectional fine grinding and polishing main body 1; the omnibearing fine grinding and polishing main body 1 comprises a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack 6, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7, a sequence connection type combined dynamic characteristic transmission loading case 8, a sequence connection type combined dynamic characteristic transmission unloading case 9 and a porous material type intermediate combination type cyclone circulation dust removal case 10, wherein the sequence connection type combined dynamic characteristic transmission loading case 8 is arranged at one side of the omnibearing fine grinding and polishing main body 1, the sequence connection type combined dynamic characteristic transmission unloading case 9 is arranged at the other side of the omnibearing fine grinding and polishing main body 1, one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack 6 is arranged on the sequence connection type combined dynamic characteristic transmission loading case 8, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack 6 is arranged on the sequence connection type combined dynamic characteristic transmission case 9, the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7 is arranged on the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack 6, one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7 is penetrated and arranged on the side wall of the order-linked combined dynamic characteristic transmission feeding case 8, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7 is penetrated and arranged on the side wall of the order-linked combined dynamic characteristic transmission feeding case 9, and the porous material type intermediary combined cyclone circulation circulating dust removal case 10 is arranged on the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7; the cutting type multidimensional noise-reducing polishing device 2 comprises a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder 11, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder 12, a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block 13, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor 14, a friction lossless type fine grinding and polishing primary gear 15, a friction lossless type fine grinding and polishing primary toothed block 16, a friction lossless type fine grinding and polishing primary bearing 17, an omnibearing multidimensional noise-reducing fine grinding primary turntable 18, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary motor 19, an omnibearing multidimensional fine grinding and polishing secondary turntable 20, a friction lossless type fine grinding and polishing annular chute 21, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary supporting rod 22, A cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary support rod 23, a friction lossless type fine grinding and polishing primary pulley 24, a friction lossless type fine grinding and polishing secondary pulley 25, a cutting type multidimensional multi-dimensional omnibearing fine polishing sheet 26, a cutting type multidimensional multi-dimensional omnibearing fine flexible polishing sheet 27, an intermediary combined cyclone circulating dust-removing air outlet 28, a multidimensional noise-reducing omnibearing fine grinding and polishing air-deadening hole 29, a multidimensional noise-reducing omnibearing fine grinding and polishing sound-deadening cavity 30 and a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing secondary fixed block 31, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder 11 is arranged at the upper end of the inner wall of a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7, a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block 13 is arranged at the output end of the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder 11, a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder 12 is arranged at the upper end of the inner wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case 7, a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block 13 is arranged at the output end of the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder 12, a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor 14 is arranged in the multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block 13, a friction lossless type fine grinding and polishing primary gear 15 is arranged at the output end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor 14, one end of a friction lossless type fine grinding and polishing primary bearing 17 is communicated with the lower end of the multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block 13, and an omnibearing multidimensional noise-reducing fine grinding and polishing primary turntable 18 is communicated with the other end of the friction lossless type fine grinding and polishing primary bearing 17 A friction lossless type fine grinding and polishing primary tooth block 16 is annularly arrayed at the upper end of an omnibearing multidimensional type noise reduction fine grinding primary rotary table 18, a friction lossless type fine grinding and polishing primary gear 15 and a friction lossless type fine grinding and polishing primary tooth block 16 are connected in a meshing rotation manner, a cutting type multidimensional type noise reduction omnibearing fine grinding and polishing secondary motor 19 is arranged at the lower end of the omnibearing multidimensional type noise reduction fine grinding primary rotary table 18, an omnibearing multidimensional type fine grinding secondary rotary table 20 is arranged at the output end of the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing secondary motor 19, a friction lossless type fine grinding and polishing annular chute 21 is arranged in the omnibearing multidimensional type noise reduction fine grinding and polishing primary rotary table 18, a friction lossless type fine grinding and polishing primary pulley 24 is slidably arranged in the friction lossless type fine grinding and polishing annular chute 21, a friction lossless type fine grinding and polishing secondary pulley 25 is slidably arranged in the friction lossless type fine grinding and polishing annular chute 21, one end of a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary support rod 22 is arranged on a friction lossless type fine grinding and polishing primary pulley 24, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary support rod 22 is arranged on an omnibearing multidimensional fine grinding and polishing secondary turntable 20, one end of a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary support rod 23 is arranged on a friction lossless type fine grinding and polishing secondary pulley 25, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary support rod 23 is arranged on the omnibearing multidimensional fine grinding and polishing secondary turntable 20, a cutting type multidimensional omnibearing fine grinding sheet 26 is detachably arranged at the lower end of the omnibearing fine grinding and polishing secondary turntable 20, a cutting type multidimensional omnibearing fine flexible grinding sheet 27 is detachably arranged at the lower end of the omnibearing multidimensional fine grinding and polishing primary turntable 18, the medium combined type cyclone circulating dust removal air outlet 28 is arranged at the lower end of the omnibearing multidimensional noise reduction and fine grinding one-level rotary table 18, the multidimensional noise reduction and omnibearing fine grinding and polishing air outlet 29 is arranged at the lower end of the omnibearing multidimensional noise reduction and fine grinding one-level rotary table 18, the multidimensional noise reduction and omnibearing fine grinding and polishing air outlet 30 is arranged in the omnibearing multidimensional noise reduction and fine grinding one-level rotary table 18, and the multidimensional cutting type noise reduction and omnibearing fine grinding and polishing two-level fixed block 31 is arranged at the upper end of the inner wall of the cutting type multidimensional noise reduction and omnibearing fine grinding and polishing case 7.

As shown in fig. 2 and 3, the contradictory type split lateral gravity compensation magnetic suspension limiting device 4 comprises a spear shield type split lateral gravity compensation magnetic suspension primary limiting device 46, a spear shield type split lateral gravity compensation magnetic suspension secondary limiting device 47 and a contradiction type split lateral gravity compensation magnetic suspension tertiary limiting device 48, wherein the contradiction type split lateral gravity compensation magnetic suspension primary limiting device 46 is arranged on one side of the lower end of the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7, the contradiction type split lateral gravity compensation magnetic suspension secondary limiting device 47 is arranged on the middle side of the lower end of the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7, and the contradiction type split lateral gravity compensation magnetic suspension tertiary limiting device 48 is arranged on the other side of the lower end of the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7; the spear shield type split lateral gravity compensation magnetic suspension first-level limiting device 46 comprises a dynamic characteristic split lateral gravity compensation first-level limiting telescopic tube 49, a dynamic characteristic split lateral gravity compensation second-level limiting telescopic tube 50, a contradiction type split lateral gravity compensation magnetic suspension first-level electromagnet 51, a contradiction type split lateral gravity compensation magnetic suspension first-level electromagnetic winding 52, a split type contradictory type lateral gravity compensation magnetic suspension first-level clamping plate 53 and a split type contradictory type lateral gravity compensation magnetic suspension first-level transmission roller 54, the dynamic characteristic split lateral gravity compensation first-level limiting telescopic tube 49 is arranged on the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7, the split type contradictory type lateral gravity compensation magnetic suspension first-level clamping plate 53 is arranged at the telescopic end of the dynamic characteristic split type lateral gravity compensation first-level limiting telescopic tube 49, and the split type contradictory type lateral gravity compensation magnetic suspension first-level transmission roller 54 is rotatably arranged at the split type lateral gravity compensation magnetic suspension first-level transmission roller 54 On a gravity compensation magnetic suspension primary clamping plate 53, a dynamic characteristic split lateral gravity compensation secondary limiting telescopic pipe 50 is arranged on the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7, the telescopic end of the dynamic characteristic split lateral gravity compensation secondary limiting telescopic pipe 50 is arranged on the split type contradictory lateral gravity compensation magnetic suspension primary clamping plate 53, an contradictory split lateral gravity compensation magnetic suspension primary electromagnetic winding 52 is arranged on the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7, and an contradictory split lateral gravity compensation magnetic suspension primary electromagnet 51 is arranged on the split type contradictory lateral gravity compensation magnetic suspension primary clamping plate 53.

As shown in fig. 2 and 3, the contradictory type segmented lateral gravity compensation magnetic suspension second-stage limiting device 47 includes a dynamic characteristic segmented lateral gravity compensation third-stage limiting telescopic tube 55, a dynamic characteristic segmented lateral gravity compensation fourth-stage limiting telescopic tube 56, a contradictory type segmented lateral gravity compensation magnetic suspension second-stage electromagnet 57, a contradictory type segmented lateral gravity compensation magnetic suspension second-stage electromagnetic winding 58, a segmented contradictory type lateral gravity compensation magnetic suspension second-stage clamping plate 59, and segmented contradictory type lateral gravity compensation magnetic suspension second-stage transmission rollers 60, the dynamic characteristic segmented lateral gravity compensation third-stage limiting telescopic tube 55 is disposed on the side wall of the cutting type multidimensional noise-reduction omnibearing fine grinding and polishing machine case 7, the segmented contradictory type lateral gravity compensation magnetic suspension second-stage clamping plate 59 is disposed at the telescopic end of the dynamic characteristic segmented lateral gravity compensation third-stage limiting telescopic tube 55, the split type contradictory lateral gravity compensation magnetic suspension secondary transmission roller 60 is rotatably arranged on a split type contradictory lateral gravity compensation magnetic suspension secondary clamping plate 59, the dynamic characteristic split type lateral gravity compensation four-stage limiting extension tube 56 is arranged on the side wall of the cut type multi-dimensional noise reduction omnibearing fine grinding and polishing case 7, the extension end of the dynamic characteristic split type lateral gravity compensation four-stage limiting extension tube 56 is arranged on the split type contradictory lateral gravity compensation magnetic suspension secondary clamping plate 59, the contradictory type split type lateral gravity compensation magnetic suspension secondary electromagnetic winding 58 is arranged on the side wall of the cut type multi-dimensional noise reduction omnibearing fine grinding and polishing case 7, and the contradictory type split type lateral gravity compensation magnetic suspension secondary electromagnet 57 is arranged on the split type contradictory type lateral gravity compensation magnetic suspension secondary clamping plate 59.

As shown in fig. 2 and 3, the contradictory type segmented lateral gravity compensation magnetic suspension three-stage limiting device 48 includes a dynamic characteristic segmented lateral gravity compensation five-stage limiting telescopic tube 61, a dynamic characteristic segmented lateral gravity compensation six-stage limiting telescopic tube 62, a contradictory type segmented lateral gravity compensation magnetic suspension three-stage electromagnet 63, a contradictory type segmented lateral gravity compensation magnetic suspension three-stage electromagnetic winding 64, a segmented contradictory type lateral gravity compensation magnetic suspension three-stage clamping plate 65 and a segmented contradictory type lateral gravity compensation magnetic suspension three-stage transmission roller 66, the dynamic characteristic segmented lateral gravity compensation five-stage limiting telescopic tube 61 is disposed on the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing machine case 7, the segmented contradictory type lateral gravity compensation magnetic suspension three-stage clamping plate 65 is disposed at the telescopic end of the dynamic characteristic segmented lateral gravity compensation five-stage limiting telescopic tube 61, the split type contradictory lateral gravity compensation magnetic suspension three-level transmission roller 66 is rotatably arranged on a split type contradictory lateral gravity compensation magnetic suspension three-level clamping plate 65, the dynamic characteristic split type lateral gravity compensation six-level limiting telescopic pipe 62 is arranged on the side wall of the cut type multidimensional noise reduction omnibearing fine grinding and polishing case 7, the telescopic end of the dynamic characteristic split type lateral gravity compensation six-level limiting telescopic pipe 62 is arranged on the split type contradictory lateral gravity compensation magnetic suspension three-level clamping plate 65, the contradictory type split type lateral gravity compensation magnetic suspension three-level electromagnetic winding 64 is arranged on the side wall of the cut type multidimensional noise reduction omnibearing fine grinding and polishing case 7, and the contradictory type split type lateral gravity compensation magnetic suspension three-level electromagnet 63 is arranged on the split type contradictory type lateral gravity compensation magnetic suspension three-level clamping plate 65.

As shown in fig. 2, the order-joining type combined dynamic characteristic transfer apparatus 5 includes an order-joining type combined dynamic characteristic transfer loading apparatus 67, an order-joining type combined dynamic characteristic transfer transporting apparatus 68, and an order-joining type combined dynamic characteristic transfer unloading apparatus 69, the order-joining type combined dynamic characteristic transfer loading apparatus 67 is disposed in the order-joining type combined dynamic characteristic transfer loading case 8, the order-joining type combined dynamic characteristic transfer transporting apparatus 68 is disposed in the cutting type multi-dimensional noise-reducing omnibearing fine grinding and polishing frame 6, and the order-joining type combined dynamic characteristic transfer unloading apparatus 69 is disposed in the order-joining type combined dynamic characteristic transfer unloading case 9; the order connection type combined dynamic characteristic transmission feeding device 67 comprises a combined order connection type dynamic characteristic first-stage rotating roller 70, a combined order connection type dynamic characteristic driving four-stage motor 71, a reverse gravity compensation type first-stage pressurizing fixed rotating roller 72, a reverse gravity compensation type first-stage sliding chute 73, a magnetic suspension gravity compensation type first-stage electromagnetic winding 74, a magnetic suspension gravity compensation type first-stage electromagnet 75 and an order connection type combined dynamic characteristic transmission feeding four-stage bearing 76, wherein the combined order connection type dynamic characteristic first-stage rotating roller 70 is rotatably arranged on the inner wall of the order connection type combined dynamic characteristic transmission feeding machine box 8, the combined order connection type dynamic characteristic driving four-stage motor 71 is arranged on the outer wall of the order connection type combined dynamic characteristic transmission feeding machine box 8, one end of the combined order connection type dynamic characteristic first-stage rotating roller 70 is arranged at the output end of the combined order connection type dynamic characteristic driving four-stage motor 71, the reverse gravity compensation type first-stage chute 73 is arranged on the order connection type combined dynamic characteristic transmission feeding machine box 8, the order connection type combined dynamic characteristic transmission feeding four-stage bearing 76 is arranged on the reverse gravity compensation type first-stage chute 73 in a sliding mode, one end of the reverse gravity compensation type first-stage pressurizing fixed rotating roller 72 is sleeved in the order connection type combined dynamic characteristic transmission feeding four-stage bearing 76, the magnetic suspension gravity compensation type first-stage electromagnetic winding 74 is arranged at the lower end of the reverse gravity compensation type first-stage chute 73, and the magnetic suspension gravity compensation type first-stage electromagnet 75 is arranged at the lower end of the order connection type combined dynamic characteristic transmission feeding four-stage bearing 76.

As shown in fig. 2 and fig. 9, the order-joining type combined dynamic characteristic transmitting and transporting device 68 includes a combined order-joining type dynamic characteristic driving five-stage motor 77, an order-joining type combined dynamic characteristic transmitting and transporting transmission roller 78, an order-joining type combined dynamic characteristic transmitting and transporting gear 79, an order-joining type combined dynamic characteristic transmitting and transporting chain 80 and an order-joining type combined dynamic characteristic transmitting and transporting rotation belt 81, the combined order-joining type dynamic characteristic driving five-stage motor 77 is disposed at the bottom end of the inner wall of the cutting type multi-dimensional noise-reducing omnibearing fine grinding and polishing machine frame 6, the order-joining type combined dynamic characteristic transmitting and transporting transmission roller 78 is rotatably disposed on the inner side wall of the cutting type multi-dimensional noise-reducing omnibearing fine grinding and polishing machine frame 6, the order-joining type combined dynamic characteristic transmitting and transporting gear 79 is sleeved on the shaft of the order-joining type combined dynamic characteristic transmitting and transporting transmission roller 78, the order-joining type combined dynamic characteristic transmission and transportation chain 80 is sleeved on the order-joining type combined dynamic characteristic transmission and transportation gear 79, one end of the order-joining type combined dynamic characteristic transmission and transportation rotating belt 81 is wound and connected to the output end of the combined order-joining type dynamic characteristic driving five-stage motor 77, and the other end of the order-joining type combined dynamic characteristic transmission and transportation rotating belt 81 is sleeved on the shaft of the order-joining type combined dynamic characteristic transmission and transportation transmission roller 78.

As shown in fig. 2 and 9, the order-joining type combined dynamic characteristic transmitting and discharging device 69 includes a combined order-joining type dynamic characteristic secondary rotating drum 82, a combined order-joining type dynamic characteristic driving six-stage motor 83, a reverse gravity compensation type secondary pressurizing fixed rotating drum 84, a reverse gravity compensation type secondary chute 85, a magnetic suspension gravity compensation type secondary electromagnetic winding 86, a magnetic suspension gravity compensation type secondary electromagnet 87, and an order-joining type combined dynamic characteristic transmitting and feeding five-stage bearing 88, the combined order-joining type dynamic characteristic secondary rotating drum 82 is rotatably disposed on an inner wall of the order-joining type combined dynamic characteristic transmitting and discharging case 9, the combined order-joining type dynamic characteristic driving six-stage motor 83 is disposed on an exterior of the order-joining type combined dynamic characteristic transmitting and discharging case 9, and an output end of the combined order-joining type dynamic characteristic driving six-stage motor 83 is disposed on the combined order-joining type dynamic characteristic secondary rotating and rolling drum 9 On the drum 82, a reverse gravity compensation type secondary chute 85 is arranged on the order connection type combined dynamic characteristic transmission blanking machine case 9, an order connection type combined dynamic characteristic transmission feeding five-stage bearing 88 is arranged on the reverse gravity compensation type secondary chute 85 in a sliding mode, one end of a reverse gravity compensation type secondary pressurizing fixed rotating roller 84 is sleeved in the order connection type combined dynamic characteristic transmission feeding five-stage bearing 88, a magnetic suspension gravity compensation type secondary electromagnetic winding 86 is arranged at the lower end of the reverse gravity compensation type secondary chute 85, and a magnetic suspension gravity compensation type secondary electromagnet 87 is arranged at the lower end of the order connection type combined dynamic characteristic transmission feeding five-stage bearing 88.

As shown in FIGS. 2, 6 and 7, the porous material type intermediate combined cyclone circulation dust removing device 3 comprises a porous material type intermediate combined cyclone circulation dust removing three-stage motor 32, an intermediate combined porous material type cyclone circulation dust removing two-stage gear 33, an intermediate combined porous material type cyclone circulation dust removing three-stage gear 34, a cyclone circulation type friction nondestructive dust removing two-stage bearing 35, a porous material type intermediate combined cyclone circulation dust removing dust collecting pipe 36, a porous material type intermediate combined cyclone circulation dust collecting hole 37, a porous material type intermediate combined cyclone circulation dust removing gas conveying pipeline 38, a porous material type intermediate combined cyclone circulation dust removing gas pump 39, a cyclone circulation type friction nondestructive dust removing three-stage bearing 40, a cyclone circulation type friction nondestructive dust removing three-stage turntable 41, a cyclone circulation type friction nondestructive dust removing three-stage turntable 41, An air flow driving type cyclone circulation type dust removal power paddle 42, an air flow driving type cyclone circulation type dust removal viscous adsorption small ball 43, an intermediary combination type porous material type cyclone circulation type dust removal filter cap 44 and an intermediary combination type porous material type cyclone circulation type dust removal telescopic pipeline 45, wherein a porous material type intermediary combination type cyclone circulation type dust removal three-stage motor 32 is arranged at the lower end of a multidimensional cutting type noise reduction omnibearing fine grinding and polishing two-stage fixed block 31, an intermediary combination type porous material type cyclone circulation type dust removal three-stage gear 34 is arranged at the output end of the porous material type intermediary combination type cyclone circulation type dust removal three-stage motor 32, a cyclone circulation type friction lossless type dust removal two-stage bearing 35 is arranged at the upper end of the inner wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case 7 in a penetrating manner, and an intermediary combination type porous material type cyclone circulation type dust removal two-stage gear 33 is arranged on the cyclone circulation type friction lossless type dust removal two-stage bearing 35 in a penetrating manner The intermediate combined type porous material type cyclone circulation dust removal secondary gear 33 and the intermediate combined type porous material type cyclone circulation dust removal tertiary gear 34 are in meshed rotary connection, the porous material type intermediate combined type cyclone circulation dust removal dust collection pipe 36 is arranged at the lower end of the cyclone circulation type friction nondestructive dust removal secondary bearing 35 in a penetrating mode, the porous material type intermediate combined type cyclone circulation dust removal hole 37 is arranged on the porous material type intermediate combined type cyclone circulation dust removal dust collection pipe 36, one end of the porous material type intermediate combined type cyclone circulation dust removal air conveying pipeline 38 is arranged on the cyclone circulation type friction nondestructive dust removal secondary bearing 35 in a penetrating mode, the other end of the porous material type intermediate combined type cyclone circulation dust removal air conveying pipeline 38 is arranged in the porous material type intermediate combined type cyclone circulation dust removal box 10 in a penetrating mode, and the porous material type intermediate combined type cyclone circulation dust removal air pump 39 is arranged in the porous material type intermediate combined type cyclone circulation dust removal air pump 34 in a penetrating mode On the wind circulation type circulating dust removal gas transmission pipeline 38, a cyclone circulation type friction lossless type dust removal third-level bearing 40 is arranged at the upper end of the outer wall of the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing case 7 in a penetrating way, a cyclone circulation type friction lossless type dust removal third-level turntable 41 is arranged on the cyclone circulation type friction lossless type dust removal third-level bearing 40 in a penetrating way, an intermediary combination type porous material type cyclone circulation type circulating dust removal filter cap 44 is arranged on the cyclone circulation type friction lossless type dust removal third-level turntable 41 in a dismounting way, an air flow driving type cyclone circulation type dust removal viscous adsorption small ball 43 is arranged on the cyclone circulation type friction lossless type dust removal third-level turntable 41 in a dismounting way, an air flow driving type cyclone circulation type dust removal power paddle 42 is arranged on the side wall of the cyclone circulation type friction lossless type dust removal third-level turntable 41 in an annular array way, and one end of the intermediary combination type porous material type cyclone circulation type dust removal telescopic pipeline 45 is arranged on the cyclone circulation type dust removal third-level turntable 41 in a penetrating way On the friction nondestructive dust removal three-stage bearing 40, the other end of the medium combined type porous material type cyclone circulating dust removal telescopic pipeline 45 is arranged on the medium combined type cyclone circulating dust removal air outlet 28 in a penetrating manner.

As shown in fig. 2, 3, 5, 8 and 9, the reverse gravity compensation type secondary pressurized fixed rotary drum 84 is externally connected with a power supply, the magnetic suspension gravity compensation type primary electromagnetic winding 74 is externally connected with a power supply, the contradiction type split type lateral gravity compensation magnetic suspension primary electromagnetic winding 52 is externally connected with a power supply, the contradiction type split type lateral gravity compensation magnetic suspension secondary electromagnetic winding 58 is externally connected with a power supply, the contradiction type split type lateral gravity compensation magnetic suspension tertiary electromagnetic winding 64 is externally connected with a power supply, the combined order connection type dynamic characteristic driving six-stage motor 83 is externally connected with a power supply, the combined order connection type dynamic characteristic driving five-stage motor 77 is externally connected with a power supply, the cut type multi-dimensional noise reduction omnibearing fine grinding and polishing secondary motor 19 is externally connected with a power supply, the cut type multi-dimensional noise reduction omnibearing fine grinding and polishing type primary motor 14 is externally connected with a power supply, the porous material type medium combined cyclone circulation circulating dust removal three-stage motor 32 is externally connected with a power supply, and the porous material type medium combined cyclone circulation circulating dust removal air pump 39 is externally connected with a power supply.

When the device is used, firstly, a plate to be polished is placed into the sequence connection type combined dynamic characteristic transmission feeding case 8, the sequence connection type combined dynamic characteristic transmission feeding device 67 is started, the reverse gravity compensation type first-stage pressurizing fixed rotary roller 72 is lifted by controlling the current of the magnetic suspension gravity compensation type first-stage electromagnetic winding 74 and the repulsion force generated by the magnetic suspension gravity compensation type first-stage electromagnet 75, the plate is placed on the combined sequence connection type dynamic characteristic first-stage rotary roller 70, the output end of the combined sequence connection type dynamic characteristic driving four-stage motor 71 rotates to drive the combined sequence connection type dynamic characteristic first-stage rotary roller 70 to rotate, the repulsion force is changed into the attraction force by controlling the current between the magnetic suspension gravity compensation type first-stage electromagnetic winding 74 and the magnetic suspension gravity compensation type first-stage electromagnet 75 after the plate is placed, and the feeding process of the plate is more stable, starting the sequential connection type combined dynamic characteristic transmitting and transporting device 68, the output end of the combined sequential connection type dynamic characteristic driving five-stage motor 77 rotates to drive the sequential connection type combined dynamic characteristic transmitting and transporting rotation belt 81 to rotate, the sequential connection type combined dynamic characteristic transmitting and transporting rotation belt 81 rotates to drive the sequential connection type combined dynamic characteristic transmitting and transporting gear 79 and the sequential connection type combined dynamic characteristic transmitting and transporting transmission roller 78 to rotate, the sequential connection type combined dynamic characteristic transmitting and transporting gear 79 rotates to drive the sequential connection type combined dynamic characteristic transmitting and transporting chain 80 to transport the plate, meanwhile, starting the spear shield type split type lateral gravity compensation magnetic suspension limiting device 4, when the plate moves to the position of the contradictory type split type lateral gravity compensation magnetic suspension three-stage limiting device 48, controlling the current contradictory type split type lateral gravity compensation magnetic suspension three-stage electromagnetic winding 64 and the contradictory type split type lateral gravity compensation magnetic suspension three-stage limiting device 48 The magnetic suspension three-level electromagnet 63 generates repulsion force to drive the split type contradictory lateral gravity compensation magnetic suspension three-level clamping plate 65 to move, the split type contradictory lateral gravity compensation magnetic suspension three-level clamping plate 65 drives the split type contradictory lateral gravity compensation magnetic suspension three-level transmission roller 66 to move so as to limit the moving plate, when the plate moves to the contradictory type split type lateral gravity compensation magnetic suspension two-level limiting device 47, the split type contradictory lateral gravity compensation magnetic suspension two-level electromagnetic winding 58 and the contradictory type split type lateral gravity compensation magnetic suspension two-level electromagnet 57 generate repulsion force by controlling the current, so as to drive the split type contradictory lateral gravity compensation magnetic suspension two-level clamping plate 59 to move, the split type contradictory lateral gravity compensation magnetic suspension two-level clamping plate 59 moves to drive the split type contradictory lateral gravity compensation magnetic suspension two-level transmission roller 60 to move, thereby limiting the moving plate, when the plate moves to the contradiction type split lateral gravity compensation magnetic suspension primary limiting device 46, the current contradiction type split lateral gravity compensation magnetic suspension primary electromagnetic winding 52 and the contradiction type split lateral gravity compensation magnetic suspension primary electromagnet 51 are controlled to generate repulsion force, thereby driving the split type contradiction type lateral gravity compensation magnetic suspension primary clamping plate 53 to move, the split type contradiction type lateral gravity compensation magnetic suspension primary clamping plate 53 moves to drive the split type contradiction type lateral gravity compensation magnetic suspension primary transmission roller 54 to move, thereby limiting the moving plate, the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder 11 is started, the cutting type multidimensional noise reduction and polishing device 2 is descended to a proper position, the output end of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing primary motor 14 drives the friction lossless type fine grinding and polishing primary gear 15 to rotate, the friction lossless type fine grinding and polishing primary gear 15 rotates to drive the friction lossless type fine grinding and polishing primary gear block 16 to rotate, the friction lossless type fine grinding and polishing primary gear block 16 rotates to drive the omnibearing multidimensional type noise reduction fine grinding primary turntable 18 to rotate, the omnibearing multidimensional type noise reduction fine grinding primary turntable 18 rotates to drive the cutting multidimensional type omnibearing fine flexible grinding sheet 27 and the cutting multidimensional type noise reduction omnibearing fine grinding and polishing primary support rod 22 to rotate, the cutting multidimensional type noise reduction omnibearing fine grinding and polishing secondary motor 19 rotates to drive the omnibearing multidimensional type fine grinding secondary turntable 20 to rotate, the omnibearing multidimensional type fine grinding secondary turntable 20 rotates to drive the cutting multidimensional type omnibearing fine polishing sheet 26 to rotate, the plate is ground, and the cutting multidimensional type omnibearing fine flexible grinding sheet 27 has a cleaning effect on the surface of the plate at the same time, the sound generated by grinding enters the multidimensional noise-reducing omnibearing fine grinding and polishing silencing cavity 30 through the multidimensional noise-reducing omnibearing fine grinding and polishing silencing hole 29, and is reflected and counteracted with the newly-incoming sound wave to realize the function of noise reduction, the output end of the porous material type intermediary combined type cyclone circulation dedusting three-level motor 32 rotates to drive the intermediary combined type porous material type cyclone circulation dedusting three-level gear 34 to rotate, the intermediary combined type porous material type cyclone circulation dedusting three-level gear 34 rotates to drive the intermediary combined type porous material type cyclone circulation dedusting two-level gear 33 to rotate, the intermediary combined type porous material type cyclone circulation dedusting two-level gear 33 rotates to drive the porous material type intermediary combined type cyclone circulation dedusting dust suction pipe 36 to rotate, the porous material type intermediary combined type cyclone circulation dedusting air pump 39 is started to suck the sawdust generated by grinding into the porous material type intermediary combined type cyclone circulation dedusting box 10, airflow generated by the porous material type intermediate combined type cyclone circulation dust removal air pump 39 blows airflow to drive the cyclone circulation type dust removal power paddle 42 to rotate so as to drive the cyclone circulation type friction lossless type dust removal three-stage rotary table 41 to rotate, the cyclone circulation type friction lossless type dust removal three-stage rotary table 41 rotates to drive the airflow driving type cyclone circulation type dust removal sticky adsorption small balls 43 to rotate, the drawn sawdust is adsorbed on the airflow driving type cyclone circulation type dust removal sticky adsorption small balls 43, then purified airflow is blown out from the intermediate combined type cyclone circulation dust removal air outlet hole 28 through the intermediate combined type cyclone circulation dust removal telescopic pipeline 45 so as to prevent the sawdust from entering the noise reduction type omnibearing multidimensional fine polishing noise elimination cavity 30, and the grinded plate is transported out from the order connection type combined type dynamic characteristic transmission blanking device 69, the reverse gravity compensation type secondary pressurizing fixed rotary roller 84 is lifted by controlling the current of the magnetic suspension gravity compensation type secondary electromagnetic winding 86 and the repulsive force generated by the magnetic suspension gravity compensation type secondary electromagnet 87, after the plate enters the combined order connection type dynamic characteristic secondary rotary roller 82, the current of the magnetic suspension gravity compensation type secondary electromagnetic winding 86 is controlled to change the repulsive force into the attractive force, the combined order connection type dynamic characteristic drives the output end of the six-stage motor 83 to rotate to drive the combined order connection type dynamic characteristic secondary rotary roller 82 to rotate, and the plate is subjected to a blanking process.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a burnishing device is used in material processing based on one-dimensional becomes multidimension principle which characterized in that: comprises an omnibearing fine grinding and polishing main body (1), a cutting type multidimensional noise reduction and polishing device (2), a porous material type intermediate combined cyclone circulation dust removal device (3), a contradiction type split lateral gravity compensation magnetic suspension limiting device (4) and a sequential connection type combined dynamic characteristic transmission device (5), the cutting type multidimensional noise-reducing polishing device (2) is arranged in the omnibearing fine grinding and polishing main body (1), the porous material type intermediary combined cyclone circulation dust removal device (3) is arranged on the omnibearing fine grinding and polishing main body (1), the spear shield type split lateral gravity compensation magnetic suspension limiting device (4) is arranged in the omnibearing fine grinding and polishing main body (1), the order connection type combined dynamic characteristic conveying device (5) is arranged in the omnibearing fine grinding and polishing main body (1).

2. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 1, wherein: the omnibearing fine grinding and polishing main body (1) comprises a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack (6), a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), a sequence connection type combined dynamic characteristic transmission feeding case (8), a sequence connection type combined dynamic characteristic transmission discharging case (9) and a porous material type intermediate combination type cyclone circulation circulating dust removal case (10), wherein the sequence connection type combined dynamic characteristic transmission feeding case (8) is arranged on one side of the omnibearing fine grinding and polishing main body (1), the sequence connection type combined dynamic characteristic transmission discharging case (9) is arranged on the other side of the omnibearing fine grinding and polishing main body (1), one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack (6) is arranged on the sequence connection type combined dynamic characteristic transmission feeding case (8), the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing rack (6) is arranged on a sequence connection type combined dynamic characteristic transmission blanking machine case (9), the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7) is arranged on the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing frame (6), one end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7) is arranged on the side wall of the order connection type combined dynamic characteristic transmission feeding case (8) in a penetrating way, the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7) is arranged on the side wall of the order connection type combined dynamic characteristic transmission blanking case (9) in a penetrating way, the porous material type intermediary combined cyclone circulation dust removal box (10) is arranged on the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7).

3. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 2, wherein: the cutting type multidimensional noise-reducing polishing device (2) comprises a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder (11), a dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder (12), a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing primary fixed block (13), a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor (14), a friction lossless type fine grinding and polishing primary gear (15), a friction lossless type fine grinding and polishing primary gear block (16), a friction lossless type fine grinding and polishing primary bearing (17), an omnibearing multidimensional noise-reducing fine grinding primary turntable (18), a cutting type multidimensional cutting type omnibearing noise-reducing fine grinding and polishing secondary motor (19), an omnibearing multidimensional type fine grinding secondary turntable (20), a friction lossless type fine grinding and polishing annular chute (21), A cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary support rod (22), a cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary support rod (23), a friction nondestructive first-level fine grinding and polishing pulley (24), a friction nondestructive second-level fine grinding and polishing pulley (25), a cutting type multidimensional omnibearing fine polishing sheet (26), a cutting type multidimensional omnibearing fine flexible grinding sheet (27), an intermediary combined cyclone circulating dust removal air outlet hole (28), a multidimensional noise-reducing omnibearing fine grinding and polishing sound-eliminating hole (29), a multidimensional noise-reducing omnibearing fine grinding and polishing sound-eliminating cavity (30) and a multidimensional cutting type noise-reducing omnibearing fine grinding and polishing secondary fixed block (31), wherein the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder (11) is arranged at the upper end of the inner wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the multidimensional cutting type noise reduction omnibearing fine grinding and polishing primary fixing block (13) is arranged at the output end of the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing primary cylinder (11), the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder (12) is arranged at the upper end of the inner wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case (7), the multidimensional cutting type noise reduction omnibearing fine grinding and polishing primary fixing block (13) is arranged at the output end of the dynamic characteristic pressure self-adjusting omnibearing fine grinding and polishing secondary cylinder (12), the cutting type multidimensional noise reduction omnibearing fine grinding and polishing primary motor (14) is arranged in the multidimensional cutting type noise reduction fine grinding and polishing primary fixing block (13), the friction lossless type fine grinding and polishing primary gear (15) is arranged at the output end of the cutting type multidimensional type noise reduction omnibearing fine grinding and polishing primary motor (14), one end of the friction lossless type fine grinding and polishing primary bearing (17) is communicated with the lower end of a multidimensional cutting type noise reduction omnibearing fine grinding and polishing primary fixing block (13), the omnibearing multidimensional noise reduction fine grinding primary turntable (18) is communicated with the other end of the friction lossless type fine grinding and polishing primary bearing (17), the friction lossless type fine grinding and polishing primary toothed block (16) is annularly arrayed at the upper end of the omnibearing multidimensional noise reduction fine grinding primary turntable (18), the friction lossless type fine grinding and polishing primary gear (15) and the friction lossless type fine grinding and polishing primary toothed block (16) are connected in a meshing rotation mode, the cutting type multidimensional noise reduction omnibearing fine grinding and polishing secondary motor (19) is arranged at the lower end of the cutting type omnibearing multidimensional noise reduction fine grinding primary turntable (18), and the multidimensional omnibearing fine grinding and polishing secondary turntable (20) is arranged at the lower end of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing primary turntable (18) An output end of a secondary motor (19), wherein the friction lossless type fine grinding and polishing annular chute (21) is arranged in an omnibearing multidimensional noise-reduction fine grinding and polishing primary turntable (18), the friction lossless type fine grinding and polishing primary pulley (24) is arranged in the friction lossless type fine grinding and polishing annular chute (21) in a sliding manner, the friction lossless type fine grinding and polishing secondary pulley (25) is arranged in the friction lossless type fine grinding and polishing annular chute (21) in a sliding manner, one end of a cutting type multidimensional noise-reduction omnibearing fine grinding and polishing primary support rod (22) is arranged on the friction lossless type fine grinding and polishing primary pulley (24), the other end of the cutting type multidimensional noise-reduction fine grinding and polishing primary support rod (22) is arranged on the omnibearing multidimensional fine grinding and polishing secondary turntable (20), and one end of the cutting type multidimensional noise-reduction omnibearing fine grinding and polishing secondary support rod (23) is arranged on the friction lossless type fine grinding and polishing secondary turntable (18) On the optical secondary pulley (25), the other end of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing secondary support rod (23) is arranged on the omnibearing multidimensional fine grinding secondary turntable (20), the cutting type multidimensional omnibearing fine polishing sheet (26) is arranged at the lower end of the omnibearing multidimensional fine grinding secondary turntable (20) in a detachable manner, the cutting type multidimensional omnibearing fine flexible grinding sheet (27) is arranged at the lower end of the omnibearing multidimensional noise-reducing fine grinding primary turntable (18) in a detachable manner, the intermediary combined cyclone circulating dust removal air outlet hole (28) is arranged at the lower end of the omnibearing multidimensional noise-reducing fine grinding primary turntable (18), the multidimensional noise-reducing omnibearing fine grinding and polishing sound-eliminating hole (29) is arranged at the lower end of the omnibearing multidimensional fine noise-reducing grinding primary turntable (18), and the multidimensional noise-reducing omnibearing fine grinding and polishing sound-eliminating cavity (30) is arranged in the omnibearing multidimensional noise-reducing fine grinding primary turntable (18) The multidimensional cutting type noise-reducing omnibearing fine grinding and polishing two-stage fixed block (31) is arranged at the upper end of the inner wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7).

4. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 3, wherein: the porous material type medium combined cyclone circulation dust removal device (3) comprises a porous material type medium combined cyclone circulation dust removal three-level motor (32), a medium combined porous material type cyclone circulation dust removal two-level gear (33), a medium combined porous material type cyclone circulation dust removal three-level gear (34), a cyclone circulation type friction lossless dust removal two-level bearing (35), a porous material type medium combined cyclone circulation dust removal pipe (36), a porous material type medium combined cyclone circulation dust removal hole (37), a porous material type medium combined cyclone circulation dust removal gas transmission pipeline (38), a porous material type medium combined cyclone circulation dust removal gas pump (39), a cyclone circulation type lossless friction lossless dust removal three-level bearing (40), a cyclone circulation type friction lossless dust removal three-level turntable (41), a cyclone circulation lossless friction lossless dust removal three-level turntable (41), The airflow-driven cyclone circulation type dust removal power paddle (42), the airflow-driven cyclone circulation type dust removal viscous adsorption small balls (43), the intermediary combination type porous material type cyclone circulation type dust removal filter cap (44) and the intermediary combination type porous material type cyclone circulation type dust removal telescopic pipeline (45), the porous material type intermediary combination type cyclone circulation type dust removal three-level motor (32) is arranged at the lower end of the multidimensional cutting type noise reduction omnibearing fine grinding and polishing two-level fixed block (31), the intermediary combination type porous material type cyclone circulation type dust removal three-level gear (34) is arranged at the output end of the porous material type combination type cyclone circulation type dust removal three-level motor (32), and the cyclone circulation type friction circulation type nondestructive type dust removal two-level bearing (35) is arranged at the upper end of the inner wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case (7) in a penetrating manner, the medium-combined porous material type cyclone circulation dust removal secondary gear (33) is arranged on a cyclone circulation type friction lossless type dust removal secondary bearing (35) in a penetrating mode, the medium-combined porous material type cyclone circulation dust removal secondary gear (33) and the medium-combined porous material type cyclone circulation dust removal tertiary gear (34) are connected in a meshing rotation mode, the porous material type medium-combined cyclone circulation dust removal dust collection pipe (36) is arranged at the lower end of the cyclone circulation type friction lossless type dust removal secondary bearing (35) in a penetrating mode, the porous material type medium-combined cyclone circulation dust collection holes (37) are arranged on the porous material type medium-combined cyclone circulation dust removal dust collection pipe (36), one end of the porous material type medium-combined cyclone circulation dust removal gas transmission pipeline (38) is arranged on the cyclone circulation type friction lossless type dust removal secondary bearing (35) in a penetrating mode, the other end of the porous material type medium combined cyclone circulation dedusting gas transmission pipeline (38) is arranged in the porous material type medium combined cyclone circulation dedusting box (10) in a penetrating manner, the porous material type medium combined cyclone circulation dedusting gas pump (39) is arranged on the porous material type medium combined cyclone circulation dedusting gas transmission pipeline (38), the cyclone circulation type friction lossless type dedusting third-level bearing (40) is arranged on the upper end of the outer wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing box (7) in a penetrating manner, the cyclone circulation type friction lossless type dedusting third-level turntable (41) is arranged on the cyclone circulation type friction lossless type dedusting third-level bearing (40) in a penetrating manner, the medium combined porous material type cyclone circulation dedusting filter cap (44) is arranged on the cyclone circulation type friction lossless type dedusting third-level turntable (41) in a dismounting manner, the airflow-driven cyclone circulation type dust removal viscous adsorption small balls (43) are arranged on the cyclone circulation type friction lossless type dust removal three-level rotary table (41) in a detachable annular array mode, the airflow-driven cyclone circulation type dust removal power paddles (42) are arranged on the side wall of the cyclone circulation type friction lossless type dust removal three-level rotary table (41) in an annular array mode, one end of the intermediary combination type porous material type cyclone circulation dust removal telescopic pipeline (45) is arranged on the cyclone circulation type friction lossless type dust removal three-level bearing (40) in a penetrating mode, and the other end of the intermediary combination type porous material type cyclone circulation dust removal telescopic pipeline (45) is arranged on the intermediary combination type cyclone circulation dust removal air outlet (28) in a penetrating mode.

5. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 4, wherein: the spear shield type split lateral gravity compensation magnetic suspension limiting device (4) comprises a spear shield type split lateral gravity compensation magnetic suspension primary limiting device (46), a contradiction type split lateral gravity compensation magnetic suspension secondary limiting device (47) and a contradiction type split lateral gravity compensation magnetic suspension tertiary limiting device (48), the spear shield type split lateral gravity compensation magnetic suspension primary limiting device (46) is arranged on one side of the lower end of the side wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the spear shield type split lateral gravity compensation magnetic suspension secondary limiting device (47) is arranged at the middle side of the lower end of the side wall of the cutting type multi-dimensional noise-reduction omnibearing fine grinding and polishing case (7), the spear shield type split lateral gravity compensation magnetic suspension three-level limiting device (48) is arranged on the other side of the lower end of the side wall of the cutting type multi-dimensional noise-reduction omnibearing fine grinding and polishing case (7); the spear shield type split lateral gravity compensation magnetic suspension primary limiting device (46) comprises a dynamic characteristic split lateral gravity compensation primary limiting telescopic pipe (49), a dynamic characteristic split lateral gravity compensation secondary limiting telescopic pipe (50), a contradiction type split lateral gravity compensation magnetic suspension primary electromagnet (51), a contradiction type split lateral gravity compensation magnetic suspension primary electromagnetic winding (52), a split contradiction type lateral gravity compensation magnetic suspension primary clamping plate (53) and a split contradiction type lateral gravity compensation magnetic suspension primary transmission roller (54), wherein the dynamic characteristic split lateral gravity compensation primary limiting telescopic pipe (49) is arranged on the side wall of the cutting type multi-dimensional noise-reduction omnibearing fine grinding and polishing machine case (7), the split type lateral gravity compensation magnetic suspension primary clamping plate (53) is arranged at the telescopic end of the dynamic characteristic split lateral gravity compensation primary telescopic pipe (49), the split type contradictory lateral gravity compensation magnetic suspension primary transmission roller (54) is rotatably arranged on a split type contradictory lateral gravity compensation magnetic suspension primary clamping plate (53), the dynamic characteristic split lateral gravity compensation two-stage limiting telescopic pipe (50) is arranged on the side wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the expansion end of the dynamic characteristic split lateral gravity compensation two-stage limiting expansion pipe (50) is arranged on a split contradictory lateral gravity compensation magnetic suspension one-stage clamping plate (53), the spear shield type split lateral gravity compensation magnetic suspension primary electromagnetic winding (52) is arranged on the side wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the spear shield type split lateral gravity compensation magnetic suspension primary electromagnet (51) is arranged on a split type contradictory lateral gravity compensation magnetic suspension primary clamping plate (53).

6. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 5, wherein: the spear shield type split lateral gravity compensation magnetic suspension second-stage limiting device (47) comprises a dynamic characteristic split lateral gravity compensation three-stage limiting telescopic pipe (55), a dynamic characteristic split lateral gravity compensation four-stage limiting telescopic pipe (56), a contradiction split lateral gravity compensation magnetic suspension second-stage electromagnet (57), a contradiction split lateral gravity compensation magnetic suspension second-stage electromagnetic winding (58), a split contradiction lateral gravity compensation magnetic suspension second-stage clamping plate (59) and a split contradiction lateral gravity compensation magnetic suspension second-stage transmission roller (60), wherein the dynamic characteristic split lateral gravity compensation three-stage limiting telescopic pipe (55) is arranged on the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing machine box (7), and the split lateral gravity compensation magnetic suspension second-stage contradiction plate (59) is arranged at the telescopic end of the dynamic characteristic split lateral gravity compensation telescopic pipe (55), the split type contradictory lateral gravity compensation magnetic suspension secondary transmission roller (60) is rotatably arranged on a split type contradictory lateral gravity compensation magnetic suspension secondary clamping plate (59), the dynamic characteristic split type lateral gravity compensation four-stage limit telescopic pipe (56) is arranged on the side wall of the cutting type multi-dimensional noise-reduction omnibearing fine grinding and polishing case (7), the expansion end of the dynamic characteristic split type lateral gravity compensation four-stage limit expansion pipe (56) is arranged on a split type contradictory lateral gravity compensation magnetic suspension two-stage clamping plate (59), the spear shield type split lateral gravity compensation magnetic suspension secondary electromagnetic winding (58) is arranged on the side wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the spear shield type split lateral gravity compensation magnetic suspension secondary electromagnet (57) is arranged on the split contradictory lateral gravity compensation magnetic suspension secondary clamping plate (59).

7. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 6, wherein: the spear shield type split lateral gravity compensation magnetic suspension three-level limiting device (48) comprises a dynamic characteristic split lateral gravity compensation five-level limiting telescopic pipe (61), a dynamic characteristic split lateral gravity compensation six-level limiting telescopic pipe (62), a contradiction type split lateral gravity compensation magnetic suspension three-level electromagnet (63), a contradiction type split lateral gravity compensation magnetic suspension three-level electromagnetic winding (64), a split contradiction type lateral gravity compensation magnetic suspension three-level clamping plate (65) and a split contradiction type lateral gravity compensation magnetic suspension three-level transmission roller (66), wherein the dynamic characteristic split lateral gravity compensation five-level limiting telescopic pipe (61) is arranged on the side wall of the cutting type multidimensional noise reduction omnibearing fine grinding and polishing case (7), the split contradiction type lateral gravity compensation magnetic suspension three-level clamping plate (65) is arranged at the telescopic end of the dynamic characteristic split lateral gravity compensation five-level limiting telescopic pipe (61), the segmented contradiction type lateral gravity compensation magnetic suspension three-level transmission roller (66) is rotatably arranged on a segmented contradiction type lateral gravity compensation magnetic suspension three-level clamping plate (65), the dynamic characteristic split lateral gravity compensation six-level limiting telescopic pipe (62) is arranged on the side wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the expansion end of the dynamic characteristic split lateral gravity compensation six-stage limit expansion pipe (62) is arranged on a split contradictory lateral gravity compensation magnetic suspension three-stage clamping plate (65), the spear shield type divided lateral gravity compensation magnetic suspension three-level electromagnetic winding (64) is arranged on the side wall of the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing case (7), the spear shield type split lateral gravity compensation magnetic suspension three-level electromagnet (63) is arranged on the split contradictory lateral gravity compensation magnetic suspension three-level clamping plate (65).

8. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 7, wherein: the order connection type combined dynamic characteristic transmitting device (5) comprises an order connection type combined dynamic characteristic transmitting and feeding device (67), an order connection type combined dynamic characteristic transmitting and transporting device (68) and an order connection type combined dynamic characteristic transmitting and discharging device (69), the order connection type combined dynamic characteristic transmitting and feeding device (67) is arranged in an order connection type combined dynamic characteristic transmitting and feeding case (8), the order connection type combined dynamic characteristic transmitting and transporting device (68) is arranged in a cutting type multi-dimensional noise reduction omnibearing fine grinding and polishing rack (6), and the order connection type combined dynamic characteristic transmitting and discharging device (69) is arranged in an order connection type combined dynamic characteristic transmitting and discharging case (9); the order connection type combined dynamic characteristic transmission feeding device (67) comprises a combined order connection type dynamic characteristic first-stage rotating roller (70), a combined order connection type dynamic characteristic driving four-stage motor (71), a reverse gravity compensation type first-stage pressurizing fixed rotating roller (72), a reverse gravity compensation type first-stage sliding chute (73), a magnetic suspension gravity compensation type first-stage electromagnetic winding (74), a magnetic suspension gravity compensation type first-stage electromagnet (75) and an order connection type combined dynamic characteristic transmission feeding four-stage bearing (76), wherein the combined order connection type dynamic characteristic first-stage rotating roller (70) is rotatably arranged on the inner wall of the order connection type combined dynamic characteristic transmission feeding machine case (8), the combined order connection type dynamic characteristic driving four-stage motor (71) is arranged on the outer wall of the order connection type combined dynamic characteristic transmission feeding machine case (8), one end of the combined order connection type dynamic characteristic first-level rotating roller (70) is arranged at the output end of the combined order connection type dynamic characteristic driving four-level motor (71), the reverse gravity compensation type first-stage sliding chute (73) is arranged on the order connection type combined dynamic characteristic transmission feeding machine box (8), the order connection type combined dynamic characteristic transmission feeding four-stage bearing (76) is arranged on the reverse gravity compensation type first-stage sliding groove (73) in a sliding manner, one end of the reverse gravity compensation type first-stage pressurizing fixed rotating roller (72) is sleeved in a sequence connection type combined dynamic characteristic transmission feeding four-stage bearing (76), the magnetic suspension gravity compensation type primary electromagnetic winding (74) is arranged at the lower end of the reverse gravity compensation type primary sliding groove (73), the magnetic suspension gravity compensation type primary electromagnet (75) is arranged at the lower end of the sequential connection type combined dynamic characteristic transmission feeding four-stage bearing (76); the order connection type combined dynamic characteristic transmitting and transporting device (68) comprises a combined order connection type dynamic characteristic driving five-stage motor (77), an order connection type combined dynamic characteristic transmitting and transporting transmission roller (78), an order connection type combined dynamic characteristic transmitting and transporting gear (79), an order connection type combined dynamic characteristic transmitting and transporting chain (80) and an order connection type combined dynamic characteristic transmitting and transporting rotating belt (81), the combined order connection type dynamic characteristic driving five-stage motor (77) is arranged at the bottom end of the inner wall of the cutting type multi-dimensional noise reduction all-dimensional fine grinding and polishing rack (6), the order connection type combined dynamic characteristic transmitting and transporting transmission roller (78) is rotatably arranged on the inner wall of the cutting type multi-dimensional noise reduction all-dimensional fine grinding and polishing rack (6), and the order connection type combined dynamic characteristic transmitting and transporting gear (79) is sleeved on the order connection type combined dynamic characteristic transmitting and transporting device The shaft of the transmission roller (78), the sequence connection type combined dynamic characteristic transmission and transportation chain (80) is sleeved on the sequence connection type combined dynamic characteristic transmission and transportation gear (79), one end of the sequence connection type combined dynamic characteristic transmission and transportation rotating belt (81) is in winding connection with the output end of the combined sequence connection type dynamic characteristic driving five-stage motor (77), and the other end of the sequence connection type combined dynamic characteristic transmission and transportation rotating belt (81) is sleeved on the shaft of the sequence connection type combined dynamic characteristic transmission and transportation transmission roller (78).

9. The polishing device for material processing based on the one-dimensional variable multi-dimensional principle as claimed in claim 8, wherein: the order connection type combined dynamic characteristic transmission blanking device (69) comprises a combined order connection type dynamic characteristic secondary rotating roller (82), a combined order connection type dynamic characteristic driving six-stage motor (83), a reverse gravity compensation type secondary pressurizing fixed rotating roller (84), a reverse gravity compensation type secondary sliding chute (85), a magnetic suspension gravity compensation type secondary electromagnetic winding (86), a magnetic suspension gravity compensation type secondary electromagnet (87) and an order connection type combined dynamic characteristic transmission feeding five-stage bearing (88), wherein the combined order connection type dynamic characteristic secondary rotating roller (82) is rotatably arranged on the inner wall of the order connection type combined dynamic characteristic transmission blanking machine case (9), the combined order connection type dynamic characteristic driving six-stage motor (83) is arranged on the outer portion of the order connection type combined dynamic characteristic transmission blanking machine case (9), the output end of the combined order connection type dynamic characteristic driving six-stage motor (83) is arranged on the combined order connection type dynamic characteristic two-stage rotating roller (82), the reverse gravity compensation type secondary chute (85) is arranged on the order connection type combined dynamic characteristic transmission blanking machine box (9), the order connection type combined dynamic characteristic transmission feeding five-stage bearing (88) is arranged on the reverse gravity compensation type two-stage sliding chute (85) in a sliding way, one end of the reverse gravity compensation type two-stage pressurizing fixed rotating roller (84) is sleeved in a sequence connection type combined dynamic characteristic transmission feeding five-stage bearing (88), the magnetic suspension gravity compensation type secondary electromagnetic winding (86) is arranged at the lower end of the reverse gravity compensation type secondary chute (85), the magnetic suspension gravity compensation type secondary electromagnet (87) is arranged at the lower end of the order connection type combined dynamic characteristic transmission feeding five-stage bearing (88).

10. The material processing polishing apparatus according to claim 9, wherein: the reverse gravity compensation type secondary pressurization fixed rotating drum (84) is externally connected with a power supply, the magnetic suspension gravity compensation type primary electromagnetic winding (74) is externally connected with a power supply, the spear shield type split type lateral gravity compensation magnetic suspension type primary electromagnetic winding (52) is externally connected with a power supply, the spear shield type split type lateral gravity compensation magnetic suspension type secondary electromagnetic winding (58) is externally connected with a power supply, the spear shield type split type lateral gravity compensation magnetic suspension type three-level electromagnetic winding (64) is externally connected with a power supply, the combined order connection type dynamic characteristic driving six-level motor (83) is externally connected with a power supply, the combined order connection type dynamic characteristic driving five-level motor (77) is externally connected with a power supply, the combined order connection type cutting dynamic characteristic driving four-level motor (71) is externally connected with a power supply, the multi-dimensional noise reduction omnibearing fine grinding and polishing secondary motor (19) is externally connected with a power supply, the cutting type multidimensional noise-reducing omnibearing fine grinding and polishing primary motor (14) is externally connected with a power supply, the porous material type intermediary combined type cyclone circulation dust removal tertiary motor (32) is externally connected with a power supply, and the porous material type intermediary combined type cyclone circulation dust removal air pump (39) is externally connected with a power supply.

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