阅读说明：本技术 一种超硬磨盘端面高精度修整工具及修整方法 (High-precision finishing tool and method for end face of superhard grinding disc ) 是由 刘永军 李�东 苏永壁 谢瑞芬 于 2020-12-17 设计创作，主要内容包括：本发明属于磨盘修整领域,具体涉及一种超硬磨盘端面高精度修整工具及修整方法。该修整工具包括粗修工具、精修工具和超精修工具,以及粗修、精修及超精修配套研磨液；粗修工具选自树脂结合剂碳化硅油石块或树脂结合剂白刚玉油石块；精修工具选自树脂结合剂碳化硅油石块或树脂结合剂白刚玉油石块；超精修工具为树脂铜块,由树脂粉和铜粉热压制成,其中铜粉的质量占比为60-70％；所述配套研磨液由以下质量分数的组分组成：碳化硼40-50％,石墨10-20％,辅助分散溶剂35-45％。本发明中,配套修整工具的使用可实现对磨盘的高效高精度修整,可方便加工出端面平面度和平行度低于0.02mm的陶瓷结合剂金刚石和CBN磨盘。(The invention belongs to the field of grinding disc finishing, and particularly relates to a high-precision finishing tool and a high-precision finishing method for the end face of a superhard grinding disc. The dressing tool comprises a rough dressing tool, a fine dressing tool and a super-fine dressing tool, and rough dressing, fine dressing and super-fine dressing matching grinding fluid; the rough repair tool is selected from resin binder silicon carbide oil stone or resin binder white corundum oil stone; the finishing tool is selected from resin binder silicon carbide oil stone or resin binder white corundum oil stone; the super-finishing tool is a resin copper block, and is formed by hot pressing of resin powder and copper powder, wherein the mass ratio of the copper powder is 60-70%; the matched grinding fluid consists of the following components in percentage by mass: 40-50% of boron carbide, 10-20% of graphite and 35-45% of auxiliary dispersing solvent. According to the invention, the matched dressing tool can realize efficient and high-precision dressing of the grinding disc, and the ceramic bond diamond and CBN grinding disc with the end surface flatness and parallelism lower than 0.02mm can be conveniently machined.)

1. A superhard grinding disc end face high-precision finishing tool is characterized by comprising a rough finishing tool, a fine finishing tool and a super-precision finishing tool, and grinding fluid of rough finishing, fine finishing and super-precision finishing matching;

the rough repair tool is selected from resin binder silicon carbide oil stone or resin binder white corundum oil stone;

the fine trimming tool is selected from resin binder silicon carbide oil stone or resin binder white corundum oil stone;

the super-finishing tool is a resin copper block and is formed by hot pressing of resin powder and copper powder, wherein the mass ratio of the copper powder is 60-70%;

the matched grinding fluid consists of the following components in percentage by mass: 40-50% of boron carbide, 10-20% of graphite and 35-45% of auxiliary dispersing solvent.

2. The superhard abrasive disc end face high-precision finishing tool according to claim 1, wherein the grain size of the abrasive material in the rough finishing tool, the grain size of the abrasive material in the finishing tool and the grain size of the copper powder in the super finishing tool are gradually reduced;

the grain diameter of boron carbide in the rough trimming matching grinding liquid is smaller than that of the grinding material in the rough trimming tool and larger than that of the grinding material in the fine trimming tool;

the grain size of boron carbide in the finishing matching grinding liquid is smaller than that of the grinding material in the finishing tool and larger than that of copper powder in the super-finishing tool;

the grain size of boron carbide in the ultra-fine finishing matching grinding liquid is not larger than that of copper powder in the ultra-fine finishing tool.

3. The high-precision finishing tool for the end face of the superhard grinding disc as claimed in claim 2, wherein the abrasive material in the rough finishing tool has a grain size number of 20-60 #, the abrasive material in the finishing tool has a grain size number of 120-200 #, and the copper powder has a grain size number of 1000-4000 #.

4. A superhard abrasive disc end face high precision finishing method using the superhard abrasive disc end face high precision finishing tool according to any one of claims 1 to 3, characterized by comprising rough finishing, fine finishing and super finishing in sequence:

rough finishing uses a rough finishing grinding wheel consisting of rough finishing tools, and uses a rough finishing matching grinding fluid; finishing a finishing grinding wheel consisting of finishing tools by using finishing matching grinding fluid; the ultra-finishing uses an ultra-finishing grinding wheel consisting of ultra-finishing tools, and uses an ultra-finishing matching grinding fluid; the rough finishing, the fine finishing and the ultra-fine finishing adopt a grinding wheel end face grinding mode, and the working faces of the rough finishing grinding wheel, the fine finishing grinding wheel and the ultra-fine finishing grinding wheel are respectively adjusted to be consistent in height from the mounting plane of the grinding disc to be finished before the rough finishing, before the fine finishing and before the ultra-fine finishing.

5. The method for finishing the end face of the superhard grinding disc with high precision as claimed in claim 4, wherein the pressure of the hot pressing is 300kN-1000kN, the temperature is 150-200 ℃, and the time is 50-150min when the resin copper block is prepared.

6. The method for finishing the end face of the superhard grinding disc with high precision as claimed in claim 4, wherein the planeness after rough finishing is 0.03mm to 0.04mm, the planeness after finishing is 0.02mm to 0.03mm, and the planeness after ultra finishing is 0.005mm to 0.02 mm.

7. The method for finishing the end face of the superhard grinding disc with high precision as claimed in claim 4, wherein the grinding is carried out on a vertical shaft circular truncated cone grinder by adopting a grinding wheel end face grinding mode, the rotating speed of a main shaft for rough finishing is 600-800rpm, the rotating speed of a rotary table is 25-35rpm, the feeding speed of the main shaft is 0.5-0.7mm/min, the grinding amount is 1-5mm, and the polishing time is 1-2 min;

the rotating speed of the main shaft for fine modification is 1050-;

the rotating speed of the super-finishing spindle is 1400-1900rpm, the rotating speed of the rotary table is 45-50rpm, the feeding speed of the spindle is 0.1-0.2mm/min, the grinding amount is 0.1-0.2mm, and the polishing time is 3.5-5 min.

8. A method for finishing the end face of a superhard grinding disc with high precision as claimed in claim 7, wherein before rough finishing grinding, the grinding disc to be finished which is arranged on a grinding table of a vertical shaft circular table is subjected to an end face runout test, and if the end face runout is more than 0.02mm, the end face runout is corrected to be within 0.02 mm.

9. The method for finishing the end face of the superhard grinding disc with high precision according to any one of claims 4 to 8, wherein the height is consistent, and comprises that the rough finishing control dimensional tolerance is within 0.03mm, the fine finishing control dimensional tolerance is within 0.02mm, and the ultra finishing control dimensional tolerance is within 0.02 mm.

10. A method for finishing an end face of a superhard grinding disc according to claim 9, wherein if the high degree of consistency does not meet the dimensional tolerance requirement, the end face is finished by using a green silicon carbide grinding wheel with soft hardness or a white corundum grinding wheel with soft hardness until the dimensional tolerance requirement is met.

Technical Field

The invention belongs to the field of grinding disc finishing, and particularly relates to a high-precision finishing tool and a high-precision finishing method for the end face of a superhard grinding disc.

Background

The grinding tools applied to the grinding field of the fine grinding machinery can be classified into ceramic bond grinding tools, resin bond grinding tools, metal bond grinding tools and electroplating grinding tools according to the classification of bonding agents. Compared with the grinding disc of common grinding material and the grinding processing of free grinding material, the diamond and CBN grinding disc has the characteristics of high sharpness, long service life, good grinding surface finish, high chip-containing capacity, difficult blockage, high grinding efficiency and the like. Therefore, the diamond and CBN grinding disc is widely applied to grinding of metal materials such as precision ceramic materials, ruby, stainless steel, copper, aluminum alloy, titanium alloy and the like, and the application of the diamond and CBN grinding disc relates to the industries such as bearings, air-conditioning compressors, sealing, automobiles, powder metallurgy and the like.

Because the diamond and CBN grinding disc is applied to double-end face or single-end face grinding, workpieces ground by the grinding mode and the grinding disc generally require high material removal rate, high flatness and workpiece processing parallelism, and generally require flatness and parallelism to be less than 0.02 mm. The existing grinding disc dressing tool is difficult to achieve the balance of dressing efficiency and dressing precision.

Disclosure of Invention

The invention aims to provide a superhard grinding disc end face high-precision finishing tool which can realize high-efficiency high-precision finishing of a CBN grinding disc or a diamond grinding disc.

The invention has the second aim of providing a method for trimming the end face of the grinding disc with high precision.

In order to realize the purpose, the technical scheme of the superhard grinding disc end face high-precision finishing tool is as follows:

a superhard grinding disc end face high-precision finishing tool comprises a rough finishing tool, a fine finishing tool and a super-precision finishing tool, and rough finishing, fine finishing and super-precision finishing matching grinding fluid;

the rough repair tool is selected from resin binder silicon carbide oil stone or resin binder white corundum oil stone;

the fine trimming tool is selected from resin binder silicon carbide oil stone or resin binder white corundum oil stone;

the super-finishing tool is a resin copper block and is formed by hot pressing of resin powder and copper powder, wherein the mass ratio of the copper powder is 60-70%;

the matched grinding fluid consists of the following components in percentage by mass: 40-50% of boron carbide, 10-20% of graphite and 35-45% of auxiliary dispersing solvent.

The invention relates to a high-precision finishing tool for the end face of a superhard grinding disc, which finishes by using a resin bonding agent silicon carbide oil stone block or a resin bonding agent white corundum oil stone block and a resin copper block, wherein the resin material has certain elasticity and toughness, the hardness of silicon carbide or white corundum and copper is softer than that of diamond and CBN grinding materials, the grinding disc is subjected to butt grinding by using soft grinding materials and soft elastic bonding agents, the bonding agents in the grinding disc can be removed, the grinding materials on a grinding material layer of the grinding disc are not damaged, and the finishing effect is good.

The matched grinding fluid is used, so that the heat dissipation effect is achieved during dressing, and meanwhile, due to the fact that the molecular surface structure of boron carbide and graphite has a lubricating effect, an independent lubricating system is formed between a wheel to be dressed and a dressing block, and dressing defects (burning, deep pits and the like) caused by rigid removal cannot occur during dressing. In addition, boron carbide is an abrasive material, the hardness of the abrasive material is lower than that of diamond and CBN abrasive materials, the abrasive material exists in gaps of a dressing surface as free abrasive materials, and under the extrusion effect of a dressing block, the bonding agent of a disc to be dressed can be subjected to micro-removal dressing, so that the dressing efficiency and the dressing precision are improved.

The auxiliary dispersing solvent is mainly used for dispersing boron carbide and copper powder, and preferably, the auxiliary dispersing solvent is a mixture of low-molecular-weight sodium polyacrylate and water in a mass ratio of 1: 2. The water is preferably distilled water. The low molecular weight sodium polyacrylate is a conventional dispersant and has the function of preventing boron carbide, copper powder and other fillers from coagulating.

In order to further increase the hardness matching property of the dressing tool and the superhard grinding disc, as the hardness of the silicon carbide abrasive is higher than that of the white corundum abrasive, the hardness and strength of the resin bond silicon carbide stone block are also higher than those of the resin bond white corundum stone block, and the hardness of the diamond abrasive is higher than that of the CBN abrasive, the resin bond silicon carbide stone block with higher hardness is selected to dress the diamond grinding disc, the efficiency is high, the consumption of the stone block is slow, and the service life is long; if the diamond grinding disc is dressed by the resin bond white corundum, the dressing block is consumed quickly, and the dressing precision is reduced. If the CBN grinding disc is trimmed by the resin bonding agent white corundum trimming block with softer hardness, high-precision trimming can be kept, the hardness matching effect is good, and when the CBN grinding disc is trimmed by the resin bonding agent silicon carbide block, the CBN grinding material of the grinding disc is damaged under continuous abrasion due to higher hardness of the silicon carbide grinding material. Therefore, preferably, for the diamond grinding disc, the resin bond silicon carbide stone block is adopted for rough trimming and fine trimming. Aiming at the CBN grinding disc, the rough repair and the fine repair are both made of white corundum oilstone blocks of resin binder.

The use of the matched dressing tool can realize high-efficiency and high-precision dressing of the grinding disc, and the ceramic bond diamond and the CBN grinding disc with the end surface flatness and parallelism lower than 0.02mm can be conveniently machined.

In order to further optimize the matching effect of the superhard tool and the grinding fluid and further improve the finishing efficiency and the finishing precision, preferably, the grain size of the grinding material in the rough finishing tool, the grain size of the grinding material in the fine finishing tool and the grain size of the copper powder in the ultra-fine finishing tool are gradually reduced; the grain diameter of boron carbide in the rough trimming matching grinding liquid is smaller than that of the grinding material in the rough trimming tool and larger than that of the grinding material in the fine trimming tool; the grain size of boron carbide in the finishing matching grinding liquid is smaller than that of the grinding material in the finishing tool and larger than that of copper powder in the super-finishing tool; the grain size of boron carbide in the ultra-fine finishing matching grinding liquid is not larger than that of copper powder in the ultra-fine finishing tool. In the above terms, the rough finishing tool is taken as an example, for example, the rough finishing tool uses resin bonded silicon carbide block, the abrasive in the rough finishing tool is silicon carbide, the corresponding grain size number is the grain size of silicon carbide, and the other terms have the same meanings.

Aiming at the requirement of machining accuracy of machining flatness of below 0.02mm, the granularity number of the abrasive in the rough trimming tool is preferably 20# -60#, the granularity number of the abrasive in the fine trimming tool is preferably 120# -200#, and the granularity number of the copper powder is preferably 1000# -4000 #.

The technical scheme of the high-precision finishing method for the end face of the superhard grinding disc is as follows:

a superhard grinding disc end face high-precision finishing method comprises the following steps of rough finishing, fine finishing and super-fine finishing in sequence:

rough finishing uses a rough finishing grinding wheel consisting of rough finishing tools, and uses a rough finishing matching grinding fluid; finishing a finishing grinding wheel consisting of finishing tools by using finishing matching grinding fluid; the ultra-finishing uses an ultra-finishing grinding wheel consisting of ultra-finishing tools, and uses an ultra-finishing matching grinding fluid; the rough finishing, the fine finishing and the ultra-fine finishing adopt a grinding wheel end face grinding mode, and the working faces of the rough finishing grinding wheel, the fine finishing grinding wheel and the ultra-fine finishing grinding wheel are respectively adjusted to be consistent in height from the mounting plane of the grinding disc to be finished before the rough finishing, before the fine finishing and before the ultra-fine finishing.

The method for finishing the end face of the superhard grinding disc with high precision uses a finishing tool to finish the end face finishing of the grinding disc by matching three procedures of coarse grinding, fine grinding and ultra-fine grinding, is suitable for finishing the grinding disc with high requirements on the quality of end face flatness and parallelism, and has high finishing efficiency and finishing precision.

Preferably, the pressure of hot pressing is 300-1000kN, the temperature is 150-200 ℃, and the time is 50-150min when the resin copper block is prepared. The density of the resin copper block is 2.8g/cm³. When the resin copper block is prepared at a certain temperature and under a certain pressure, the tough resin flows and is solidified, the soft and tough copper powder is wrapped, the formed resin copper block has lower hardness and certain soft elasticity, the copper is in mechanical friction contact with the dressing grinding wheel, the copper can be compatible with the grinding material of the dressing grinding wheel, and meanwhile, the residual bonding agent and residual stress of the dressing grinding wheel after rough and fine dressing can be broken and removed, so that the effect of ultra-fine dressing is achieved.

Preferably, the planeness after rough finishing is 0.03mm-0.04mm, the planeness after finishing is 0.02mm-0.03mm, and the planeness after ultra finishing is 0.005mm-0.02 mm.

Preferably, the grinding is carried out on the vertical shaft circular table grinder by adopting a grinding wheel end face grinding mode, the rotating speed of a roughly-repaired main shaft is 600-800rpm, the rotating speed of a rotary table is 25-35rpm, the feeding speed of the main shaft is 0.5-0.7mm/min, the grinding amount is 1-5mm, and the polishing time is 1-2 min;

the rotating speed of the main shaft for fine modification is 1050-;

the rotating speed of the super-finishing spindle is 1400-1900rpm, the rotating speed of the rotary table is 45-50rpm, the feeding speed of the spindle is 0.1-0.2mm/min, the grinding amount is 0.1-0.2mm, and the polishing time is 3.5-5 min.

Preferably, before rough grinding, the grinding disc to be finished, which is arranged on the grinding table of the vertical shaft circular table, is subjected to end face runout test, and if the end face runout is larger than 0.2mm, the end face runout is corrected to be within 0.2 mm. The correction can be specifically carried out on a vertical lathe for correcting the base body of the bottom surface of the turning grinding disc. Through the end face movement correction, the bottom surface can be attached to a rotary table of a flat vertical shaft circular table grinding machine, and the condition that the follow-up flatness is out of tolerance due to different trimming amounts in the axial direction during rough trimming is avoided.

When the dressing process is carried out on the vertical shaft circular table grinder, the dressing millstone is placed on a rotary table (circular table) on the vertical shaft circular table grinder, and the rotation direction of a main shaft is opposite to that of the rotary table. Vertical shaft circular truncated cone mills of different types and sizes can be selected according to grinding discs of different diameters, and the grinding discs to be dressed can be fully placed on the circular truncated cones.

In the above process, the rough trimming aims to remove the allowance of the end face of the disc to be trimmed, and according to the reserved machining allowance of the disc to be trimmed, the rough trimming can trim an abrasive layer of 1-5mm, and the flatness of the abrasive layer can reach 0.03-0.04 mm.

The purpose of fine modification is to continuously remove the residual grinding amount, and simultaneously, the rotating speed of the main shaft and the rotating speed of the grinding disc are improved by reducing the feeding rate, so that the finishing wheel can contact more disc surfaces of the finished disc in unit time, the grinding material layer on the end surface of the finished grinding disc is changed into micro-shape surface crushing from large removal amount crushing, the flatness and the parallelism are further improved, and the effect of fine modification is that the removal amount is 0.5-1mm, and the flatness of the disc surface after finishing reaches 0.02-0.03 mm.

The purpose of ultra-finishing is to continuously improve the rotating speed of a main shaft and the rotating speed of a grinding disc, the grinding time is increased, the feed rate is reduced, the finishing wheel can contact with the disc surface of the finished disc in more times in unit time, the residual high points of the grinding material layer on the end surface of the finished grinding disc are removed rapidly and slightly in a single time, the polishing time is increased, the high points after finish grinding are removed gradually, the flatness and the parallelism of the high points are further improved, and the effect of finish finishing is that the removal amount is 0.1-0.2mm, the plane of the parallelism of the disc surface after finishing is lower than 0.02mm and can generally reach 0.005mm-0.02 mm.

Aiming at the vertical shaft circular truncated cone grinder, the mounting plane of the grinding disc to be modified is the surface of the rotary table of the grinder. Preferably, the height consistency comprises that the rough control dimensional tolerance is within 0.03mm, the fine control dimensional tolerance is within 0.02mm, and the ultra-fine control dimensional tolerance is within 0.02 mm. Further preferably, if the high degree of consistency does not meet the dimensional tolerance requirements, a green silicon carbide grinding wheel with soft hardness or a white corundum grinding wheel with soft hardness is used for dressing until the dimensional tolerance requirements are met. In the finishing process with high consistency, preferably, green silicon carbide grinding wheels with medium hardness are adopted in the rough finishing and the fine finishing process, and white corundum grinding wheels with medium hardness are adopted in the ultra-fine finishing process.

Drawings

FIG. 1 is a schematic structural diagram of a dressing wheel according to an embodiment of the invention, wherein 1 is a wheel base and 2 is a grinding block.

Detailed Description

The following examples are provided to further illustrate the practice of the invention.

In the following examples, the resin-bonded silicone carbide blocks or resin-bonded white corundum blocks are all commercially available in medium hardness grades, such as J, K hardness grades. And selecting according to the granularity number of the abrasive. "#" is the granularity number.

The phenolic resin powder is a commercial product and can meet the following conditions: the particle size is 20-60 μm, the heat flow temperature is 80-100 deg.C, and the thermal decomposition temperature is not lower than 300 deg.C.

The auxiliary dispersion solvent is a mixture of low molecular weight sodium polyacrylate and distilled water in a mass ratio of 1: 2. The low molecular weight sodium polyacrylate is a commercially available product, and Puyang environmental protection science and technology Limited Hengtai is selected as Puyang in the following examples.

First, the specific embodiment of the superhard grinding disc end face high-precision finishing tool of the invention

Example 1

The superhard grinding disc end face high-precision finishing tool of the embodiment is used for finishing the end face of a ceramic bond diamond grinding disc and comprises a rough finishing tool, a fine finishing tool, a super-fine finishing tool and matched grinding fluid, wherein the matched grinding fluid comprises the matched grinding fluid for rough finishing, the matched grinding fluid for fine finishing and the matched grinding fluid for super-fine finishing.

The rough-trimming tool is resin bonded silicon carbide oil stone block, wherein the granularity of the silicon carbide abrasive is 60 #. The rough repair matching grinding fluid is 80# grinding fluid A and consists of the following components in percentage by mass: 45% of 80# boron carbide, 15% of 80# graphite and 40% of auxiliary dispersant.

The finishing tool is resin bonded silicon carbide oil stone block, wherein the granularity of the silicon carbide abrasive is 200 #. The finishing matching grinding fluid is No. 240 grinding fluid A, and consists of the following components in percentage by mass: 45% of 240# boron carbide, 15% of 240# graphite and 40% of auxiliary dispersant.

The super-finishing tool is a resin copper block and is formed by hot pressing phenolic resin powder and 1000# copper powder at the temperature of 150 ℃ according to the mass ratio of 36: 64. The pressure during hot pressing was 500kN and the time was 100 min. The density of the resin copper block is 2.8g/cm³. The grinding fluid matched with the ultra-fine finishing is a 1000# grinding fluid A, and consists of the following components in percentage by mass: 45% of 1000# boron carbide, 15% of 1000# graphite and 40% of auxiliary dispersant.

Example 2

The superhard grinding disc end face high-precision finishing tool is used for finishing the CBN grinding disc end face, and is different from the superhard grinding disc end face finishing tool introduced in the embodiment 1 in that the rough finishing tool is 60# resin bond white corundum oilstone block, and the finishing tool is 200# resin bond white corundum oilstone block.

In other embodiments of the superhard abrasive disc end face high-precision dressing tool, the formula of the grinding fluid can be adjusted in a floating mode according to the formula range defined by the invention, and the effect basically equivalent to that of the embodiments can be obtained.

Secondly, the specific embodiment of the method for finishing the end surface of the superhard grinding disc with high precision

In the following embodiments, a schematic structural diagram of a dressing grinding wheel related to rough dressing, fine dressing and ultra-fine dressing is shown in fig. 1, and the dressing grinding wheel is a circular grinding wheel and is composed of a grinding wheel base body 1 and grinding blocks 2 arranged in an annular shape, and a gap is formed between every two adjacent grinding blocks 2. In the rough finishing and the fine finishing, the grinding block is an oilstone block, and in the ultra-fine finishing, the grinding block is a resin copper block.

Example 3

The method for finishing the end face of the superhard grinding disc with high precision in the embodiment uses the finishing tool in the embodiment 1 to finish the ceramic bond diamond grinding disc with the diameter of 350mm, the abrasive layer of 75mm and the granularity of 120#, and specifically comprises the following steps:

1) coarse grinding

A circular grinding wheel consisting of 60# resin bond silicon carbide blocks is arranged on a main shaft of a vertical shaft circular platform grinding machine, a height gauge is used for testing the consistency of the height (the height from the end face of the oil blocks to a rotary table) of each block, the height consistency is kept within 0.03mm, if the height is out of tolerance, a green silicon carbide grinding wheel with the granularity of 100# and medium hardness is used for trimming, and the dimensional tolerance of the height (the height from the end face of the oil blocks to the rotary table) of each block is trimmed to be within 0.03 mm.

The grinding disc to be finished is placed on a circular table on the vertical shaft circular table grinder, the end face runout of the grinding disc is tested by a dial indicator, the end face runout is guaranteed to be less than 0.02mm, if the end face runout of the grinding disc is larger than 0.02mm, a base body on the bottom surface of the turning grinding disc is corrected on a vertical lathe, the end face runout is enabled to be less than 0.02mm, and the grinding disc can be continuously installed and fixed on the vertical shaft circular table grinder to prepare for grinding and finishing.

And adding 80# grinding fluid A, starting a grinding machine to grind, wherein the rotation direction of the main shaft is opposite to that of the rotary table. The spindle rotation speed is 600rpm, the turntable rotation speed is 25rpm, the feeding rate is 0.5mm/min, the grinding amount is 3mm, and the polishing time is 2 min.

2) Finish grinding

A circular grinding wheel consisting of 200# resin bonding agent silicon carbide oil stone blocks is arranged on a main shaft, the height consistency of each block (the height from the end face of each tooth to a rotary table) is tested by a height measuring instrument, the height consistency is kept within 0.02mm, if the out-of-tolerance occurs, a green silicon carbide grinding wheel with the granularity of 300# and medium hardness is used for trimming until the dimensional tolerance of the height of each block (the height from the end face of each tooth to the rotary table) is within 0.02 mm.

And adding the No. 240 grinding fluid A, starting the grinding machine to grind, wherein the rotation direction of the spindle is opposite to that of the turntable. The main shaft rotating speed 1050rpm, the rotary table rotating speed 45rpm, the feeding speed 0.3mm/min, the grinding amount 1mm and the polishing time 1min are set.

3) Super-finishing mill

A main shaft is provided with a circular grinding wheel consisting of a resin copper block, a height gauge is used for testing the consistency of the height (the height of the end surface of the tooth from the rotary table) of each block, so that the height consistency is kept within 0.02mm, if out-of-tolerance occurs, a white corundum grinding wheel with the granularity of 600# and medium hardness is used for trimming until the dimensional tolerance of the height (the height of the end surface of the tooth from the rotary table) of each block is within 0.02 mm.

And adding the 1000# grinding fluid A, starting a grinding machine to grind, wherein the rotation direction of the main shaft is opposite to that of the rotary table. The main shaft rotating speed is 1400rpm, the rotary table rotating speed is 48rpm, the feeding speed is 0.1mm/min, the grinding amount is 0.2mm, and the polishing time is 3.5 min.

Through testing, the flatness data of the grinding disc of the dressing is 0.015 mm.

Example 4

The method for finishing the end face of the superhard grinding disc with high precision of the embodiment uses the finishing tool of the embodiment 2 to finish the resin bond CBN grinding disc with the diameter of 720mm, the abrasive layer of 250mm and the granularity of 200#, and specifically comprises the following steps:

1) coarse grinding

A circular grinding wheel consisting of No. 60 resin bond white corundum oilstone blocks is mounted on a spindle of a vertical shaft circular truncated cone grinding machine, a height gauge is used for testing the consistency of the height (the height from the end face of a tooth to a rotary table) of each block, the height consistency is kept within 0.03mm, if the height consistency is out of tolerance, a green silicon carbide grinding wheel with the granularity of 100# and medium hardness is used for trimming until the dimensional tolerance of the height (the height from the end face of the tooth to the rotary table) of each block is within 0.03 mm.

The grinding disc to be finished is placed on a circular table on the vertical shaft circular table grinder, the end face runout of the grinding disc is tested by a dial indicator, the end face runout is guaranteed to be less than 0.02mm, if the end face runout of the grinding disc is larger than 0.02mm, a base body on the bottom surface of the turning grinding disc is corrected on a vertical lathe, the end face runout is enabled to be less than 0.02mm, and the grinding disc can be continuously installed and fixed on the vertical shaft circular table grinder to prepare for grinding and finishing.

And adding 80# grinding fluid A, starting a grinding machine to grind, wherein the rotation direction of the main shaft is opposite to that of the rotary table. Setting the rotation speed of a main shaft to be 800rpm, the rotation speed of a rotary table to be 35rpm, the feeding rate to be 0.7mm/min, the grinding amount to be 5mm and the polishing time to be 1 min.

2) Finish grinding

A circular grinding wheel consisting of 200# resin bond white corundum oilstone blocks is arranged on a main shaft, the height (the height from the end face of a tooth to a rotary table) consistency of each block is tested by a height measuring instrument, the height consistency is kept within 0.02mm, if the height exceeds the standard, a green silicon carbide grinding wheel with the granularity of 300# and medium hardness is used for trimming until the dimensional tolerance of the height (the height from the end face of the tooth to the rotary table) of each block is within 0.02 mm.

And adding the No. 240 grinding fluid A, starting the grinding machine to grind, wherein the rotation direction of the spindle is opposite to that of the turntable. The main shaft rotating speed of 1200rpm, the rotary table rotating speed of 45rpm, the feeding speed of 0.4mm/min, the grinding amount of 0.5mm and the polishing time of 2min are set.

3) Super-finishing mill

A main shaft is provided with a circular grinding wheel consisting of a resin copper block, a height gauge is used for testing the consistency of the height (the height of the end surface of the tooth from the rotary table) of each block, so that the height consistency is kept within 0.02mm, if out-of-tolerance occurs, a white corundum grinding wheel with the granularity of 600# and medium hardness is used for trimming until the dimensional tolerance of the height (the height of the end surface of the tooth from the rotary table) of each block is within 0.02 mm.

And adding the 1000# grinding fluid A, starting a grinding machine to grind, wherein the rotation direction of the main shaft is opposite to that of the rotary table. The main shaft rotation speed is 1900rpm, the rotary table rotation speed is 50rpm, the feeding speed is 0.1mm/min, the grinding amount is 0.1mm, and the polishing time is 5 min.

Through testing, the flatness data of the grinding disc of the dressing is 0.01 mm.