JP2764253B2 - High-precision, high-efficiency truing and dressing method of diamond wheel with cup-type compound grinding wheel and its cup-type compound grinding wheel - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a cup-type composite grinding wheel
The present invention relates to a method for performing truing and dressing of a diamond grindstone with high precision and efficiency by using a stone, and a cup-type compound grinding grindstone used for the method.

[0002]

2. Description of the Related Art When a grindstone is attached to a spindle of a grinder, runout always occurs. Unless this is removed and corrected, chatter occurs on the processing surface, and desired processing accuracy cannot be obtained.
Therefore, when using a grindstone, it is necessary to perform shaping (dressing) for improving the sharpness and reshaping (with truing) for removing runout with respect to the grindstone surface in a state of being attached to the spindle. In the case of a general grinding wheel such as a GC grinding wheel or a WA grinding wheel, truing and dressing can be easily performed with a single stone dressing. Was.

Conventionally, the truing and dressing methods of diamond grinding stones are truing and dressing methods based on mechanical abrasion, and are roughly classified into the following three methods.

The first method is a method in which truing with an implied diamond dresser and dressing with a general grindstone are separately performed, and the second method is to cut a diamond grindstone with a rotating general grindstone and perform truing and dressing. The third method is a method in which a diamond grindstone is ground with a rotating diamond grindstone, and truing and dressing are performed.

However, the first method has a drawback that the truing takes a long time and the dressing is incomplete, so that the sharpness of the grindstone is poor. The second method is a truing and dressing method. , The truing was incomplete, and a whetstone surface without run-out was not obtained, and high-precision grinding could not be performed. And the third method is that the apparatus is expensive and
The rotating diamond grindstone is liable to cause a one-sided phenomenon, and has a drawback that it takes time and repair cost to correct the flattening phenomenon.

[0006] The inventors of the present invention have conducted intensive studies in order to solve such disadvantages. As a result, instead of forming the grinding wheel with a single stone, a grinding wheel such as a GC grinding wheel (silicon carbide grinding wheel) or a WA grinding wheel (alumina grinding wheel) is used. Using a general grinding wheel and a composite grinding wheel that alternately arranges steel materials of S25C or higher carbon steel for machine structure, low alloy steel for machine structure, carbon tool steel, alloy tool steel, high-speed steel, diamond whetstones are alternately arranged. A method for simultaneously and efficiently performing truing and dressing of a diamond grindstone by compound grinding and a compound grinding wheel used for the method have been developed and patented (Japanese Patent No. 1827153). The simultaneous truing and dressing method of the diamond grindstone is a method developed as a result of studying and studying abnormal wear (diffusion wear) generated when grinding with a diamond grindstone. In other words, the present invention is an epoch-making method that is essentially different from the conventional truing and dressing method by mechanical abrasion in that it effectively utilizes the diffusion wear phenomenon that is thermal chemical wear. Is the way. Moreover, the truing and dressing method of the diamond grinding wheel utilizing the diffusion wear phenomenon by the composite grinding wheel,
The greatest feature is that truing and dressing can be performed simultaneously and efficiently in a short time.

[0007]

However, the truing and dressing method of the diamond grinding wheel utilizing the diffusion wear phenomenon using the composite grinding wheel (Japanese Patent No. 182)
There are the following technical issues to actually commercialize (No. 7153).

[0008] Diffusive abrasion caused by grinding in the steel portion of the composite grinding wheel is difficult to set conditions for efficiently generating the abrasion. For example, it is necessary to adjust the length and width of a steel material or a general whetstone with respect to the grain size of a diamond whetstone, and it is also necessary to adjust the speed of alternate contact. In addition, since the abrasion progresses extremely rapidly when diffusion wear starts, it is actually difficult to perform appropriate truing as needed while controlling the wear. Furthermore, during truing, it is necessary to grind a whetstone surface without runout with high precision, but for this purpose, the load at the time when the whetstone comes into contact with the diamond whetstone causes the whetstone surface to bend. It is necessary to have a shape and structure that does not swing. Further, with regard to dressing by grinding with the general grinding wheel portion of the composite grinding wheel, it is necessary to adjust the length and width of the general grinding wheel in order to completely perform the dressing.

The present invention has been made to solve these technical problems, and has developed a cup-type composite grinding wheel in which specific steel materials and general grinding wheels that cause diffusion wear are alternately arranged, and the vertical grinding is performed by using a vertical grinding wheel. Grinding truing using the diffusion wear caused by the grinding of steel parts, and grinding of the general grinding wheel part by attaching to the diamond wheel with the vertical axis surface grinding method with high rigidity using it attached to the vertical axis rotating dresser of the method And dressing alternately, and by repeating this, truing and dressing of the diamond grindstone are performed in a short time and with high accuracy within 5 minutes.

[0010]

Means for Solving the Problems According to a first invention for which a patent is to be obtained, a grinding wheel is formed in a cup-shaped body, and a carbon steel material for machine structure of S25C or higher, a low alloy steel material for machine structure is formed on the upper part of the periphery. , Carbon tool steel, high-speed tool steel, and artificial grinding using alumina or silicon carbide grinding, and general grinding of vitrified grinding wheel or resinoid grinding wheel Grinding stones are alternately arranged, and the cup-type composite grinding wheel formed by forming a striped structure is placed on the spindle of the longitudinal rotation dresser so that the peripheral upper surface of the cup-type composite grinding wheel rotates in a plane. On the other hand, the diamond whetstone,
Attached to a rotating shaft arranged substantially perpendicular to the spindle of the longitudinal axis dresser, while rotating the cup-type compound grinding wheel and the diamond wheel, on the peripheral upper surface of the cup-type compound grinding wheel The diamond wheel is brought into contact, and if necessary, the diamond wheel is fed to the spindle in the left-right direction, thereby alternately contacting the steel part of the cup-type composite grinding wheel and the general grinding wheel part alternately. A highly accurate and highly efficient truing and dressing method for diamond wheels using a cup-type composite grinding wheel, characterized in that the grinding is performed by diffusion wear.

In order to solve the above-mentioned technical problems, the first invention is to form a composite grinding wheel formed by alternately arranging a specific steel material causing diffusion wear and a general grinding wheel to form a striped structure into a cup shape. It is molded and attached to the spindle of the longitudinal rotation dresser, and while rotating this cup-type composite grinding wheel, the diamond wheel is brought into contact with the rigid vertical axis surface grinding method, and if necessary, it is attached to the spindle. On the other hand, the grinding is performed using a plunge cut method that gives a feed in the left-right direction, whereby the truing and dressing of the diamond grindstone can be performed with high accuracy and high efficiency by effectively utilizing the generated diffusion wear.

[0012] A simultaneous truing and dressing method for a diamond grindstone utilizing the invention of Japanese Patent No. 1827153 is embodied to achieve as high a precision and efficiency as possible.

In other words, the composite grinding wheel is made into a cup shape,
In the upper part of the periphery, a striped structure in which steel materials and general whetstones are alternately arranged is formed, and by the rotation of the diamond whetstone to the striped structure of the diamond whetstone, continuous contact and grinding can be performed, Diffusion wear is ensured. Further, the diamond grinding wheel is mounted on a rotating shaft arranged substantially perpendicular to the spindle of the longitudinal rotation dresser, while rotating the cup-type composite grinding wheel and the diamond grinding wheel,
The diamond grinding wheel is in contact with the upper surface of the peripheral edge of the cup-type composite grinding wheel, so the rigidity of the cup-type composite grinding wheel is high, and the grinding wheel surface is stable even when a load due to contact is applied. Can be obtained with high precision. Moreover, by adjusting the number of revolutions of the cup-type compound grinding wheel, it is possible to easily control the most efficient generation of diffusion wear and the grinding thereby.
If a plunge cutting method for feeding the spindle in the left-right direction is used as required, more accurate truing and dressing of the diamond grindstone can be performed.

[0014] The second aspect of the present invention for which a patent is sought is cut
Type composite grinding wheel to the spindle of the longitudinal rotation dresser,
The peripheral upper surface of the cup-type composite grinding wheel rotates flat.
So that the diamond whetstone is
Vertically perpendicular to the dresser spindle
Attached to the rotating shaft provided, the cup-type composite grinding
While rotating the grindstone and diamond grindstone, cup-shaped
A diamond wheel is brought into contact with the upper surface of the peripheral edge of the compound grinding wheel.
And, if necessary, a diamond wheel on its spindle
To give the feed in the left and right direction,
The steel part of the cup-type composite grinding wheel and the general grinding wheel
Grinding by diffusion wear by alternately contacting diamond wheels
In the first aspect of the invention, the rotational speed of the cup-type composite grinding wheel is adjusted as an operation factor so as to efficiently generate diffusion wear. And a highly accurate and efficient truing and dressing method for a diamond grindstone using the composite grinding wheel described in the above paragraph.

According to the second aspect of the present invention, by rotating the cup-type composite grinding wheel by the longitudinal plane grinding method, it is possible to continuously contact and grind the diamond wheel with the stripe pattern structure, and to surely cause diffusion wear. In addition to the ability to adjust the number of revolutions of the cup-type composite grinding wheel, it is not necessary to adjust the length and width of steel and general grinding wheels with respect to the grain size of the diamond grinding wheel, which reduces diffusion wear. It can be adjusted to produce well. In other words, by adjusting the number of revolutions of the cup-type compound grinding wheel, the generation of grinding heat is controlled, the diffusion wear generated when grinding steel with a diamond wheel is effectively used, and the truing and dressing of the diamond wheel is performed. It can be performed with high accuracy and high efficiency. In particular, since the adjustment of the number of revolutions of the cup-type compound grinding wheel is technically easy, being able to use this as an operating factor means that it is easy to control diffusion wear, which has been extremely difficult in the past. Thus, high-efficiency truing and dressing utilizing diffusion wear have become a practical technique.

[0016] The third invention for which a patent is sought is a bracket.
Type composite grinding wheel to the spindle of the longitudinal rotation dresser,
The peripheral upper surface of the cup-type composite grinding wheel rotates flat.
So that the diamond whetstone is
Vertically perpendicular to the dresser spindle
Attached to the rotating shaft provided, the cup-type composite grinding
While rotating the grindstone and diamond grindstone, cup-shaped
A diamond wheel is brought into contact with the upper surface of the peripheral edge of the compound grinding wheel.
And, if necessary, a diamond wheel on its spindle
To give the feed in the left and right direction,
The steel part of the cup-type composite grinding wheel and the general grinding wheel
Grinding by diffusion wear by alternately contacting diamond wheels
In the vertical surface grinding method, the rotational speed of the cup-type composite grinding wheel and the feed rate of the diamond wheel to the spindle in the lateral direction with respect to the spindle are used as diffusion factors. The present invention provides a method for truing and dressing a diamond wheel with high accuracy and high efficiency using a composite grinding wheel according to the first aspect of the present invention, wherein the method is performed so as to efficiently generate the diamond.

In the third invention, two operation factors are used, namely, the number of rotations of the cup-type composite grinding wheel and the feed speed of the diamond wheel in the left-right direction with respect to the spindle.
By the combination operation of these two kinds of operation factors, fine adjustment of truing and dressing by diffusion wear became possible, and more efficient and higher precision grinding became possible. Also, when the diamond wheel is fed in the left-right direction while contacting the upper surface of the peripheral edge of the cup-type compound grinding wheel, when the cup-type compound grinding wheel is rotated clockwise, the clockwise contact the rotated in, for the left contact in a state of being rotated in the counterclockwise direction, the surface of the diamond grinding wheel with respect to the axial direction
Ri is flat grinding.

A fourth invention for which a patent is sought is grinding.
A grindstone is formed in a cup-shaped body, and S25C
Any of the above carbon steel for machine structure, low alloy steel for machine structure, carbon tool steel, high speed tool steel,
Man-made abrasives using alumina-based or silicon carbide-based abrasives, vitrified grinding wheels, and regular grinding wheels of any of the resinoid grinding wheels are alternately arranged to form a striped structure. In the center of the bottom of the cup-shaped body, a shaft attachment part to the spindle of the rotating dresser is provided,
The cup-shaped composite is characterized in that, when the rotary dresser is attached to the spindle, the peripheral upper surface of the cup-shaped body is rotated in a plane by the rotation of the rotating shaft, so that the cup-shaped body can alternately contact the diamond grindstone. A grinding wheel ,
Diamond in steel part of general grinding wheel and general grinding wheel
Grinding by diffusion friction by alternately contacting grinding wheels
Simultaneous truing and draining of diamond wheels
It is a cup-type composite grinding wheel for performing the shinging.

According to a fourth aspect of the invention, grinding is performed by diffusion friction.
Thus, the present invention is directed to a cup-type composite grinding wheel capable of realizing a highly accurate and highly efficient truing and dressing method. Its features are that the compound grinding wheel is formed in a cup shape, that a striped structure is formed on the upper edge of the periphery, the upper surface of the peripheral edge of the cup-shaped body rotates in a plane, It is configured to be able to alternately contact the diamond whetstone, thereby efficiently generating diffusion wear, and it can be easily adjusted
It is highly efficient, in that precise truing and dressing Ru can simultaneously and quickly.

The fifth invention for which a patent is sought is grinding.
A grindstone is formed in a cup-shaped body, and S25C
Any of the above carbon steel for machine structure, low alloy steel for machine structure, carbon tool steel, high speed tool steel,
Man-made abrasives using alumina abrasives or silicon carbide abrasives, vitrified grinding wheels, resinoid grinding wheels, and one of the general grinding wheels are alternately arranged in the radial direction to form a cup-shaped body. A cup-type composite grinding wheel according to a fourth aspect of the present invention , wherein a striped structure is formed on an upper peripheral portion .

The fifth invention is the cup-type composite grinding wheel according to the fourth invention, wherein the striped structure is formed radially on the upper edge of the cup-shaped body.

The sixth invention for which a patent is sought is grinding.
A grindstone is formed in a cup-shaped body, and S25C
Any of the above carbon steel for machine structure, low alloy steel for machine structure, carbon tool steel, high speed tool steel,
Man-made abrasive using alumina abrasive or silicon carbide abrasive, vitrified grinding wheel, general grinding wheel of resinoid grinding wheel is alternately arranged in the spiral direction to form a cup-shaped body A cup-type composite grinding wheel according to a fourth aspect of the present invention , wherein a striped structure is formed on an upper peripheral portion .

The sixth invention is a cup-type composite grinding wheel in which a striped structure is formed on the upper part of the periphery of the cup-shaped body in a right spiral direction or a left spiral direction.

The seventh invention for which a patent is sought is grinding.
A grindstone is formed in a cup-shaped body, and S25C
Any of the above carbon steel for machine structure, low alloy steel for machine structure, carbon tool steel, high speed tool steel,
Man-made abrasive using alumina abrasive or silicon carbide abrasive, vitrified grinding wheel, one of the general grinding wheels of resinoid grinding wheel alternately arranged in the radial direction, the cup-shaped body A cup-type composite grinding wheel according to a fourth aspect of the present invention , wherein a striped structure is formed on an upper peripheral portion .

The seventh invention is a cup-type composite grinding wheel in which a striped structure is formed on an upper peripheral portion of the cup-shaped body in an outer radial direction, an inner radial direction, or an outer and an inner radial direction.

[0026]

[Action] the main component of the diamond grinding wheel is carbon, those
When the steel material is ground with the diamond grinding wheel, the grinding point (contact point between the steel and the grinding wheel) becomes high temperature, and the oxygen-deficient state causes diffusion between the activated steel surface and the diamond grinding wheel surface,
"Diffusion wear" occurs where the carbon making up the diamond wheel migrates into the steel matrix and due to carbide formation. As a result, the eccentric highest point of the diamond grindstone is instantaneously worn. However, if the diffusion wear continues, rapid wear occurs on the diamond grindstone. Therefore, the progress of the diffusion wear is stopped and the worn portion is dressed by a general grindstone such as a GC grindstone or a WA grindstone.
It is a whetstone. By repeating this, truing due to diffusion wear caused by grinding of steel material and general grinding stone are grounded, and truing due to diffusion wear caused by grinding of steel material and dressing by grinding general grinding stone are performed alternately, and diamond grinding stone is performed. Truing and dressing are performed in a short time and with high accuracy.

Therefore, the composite grinding wheel can perform truing and dressing of the diamond grinding wheel with high efficiency without rotating itself. However, in this case, it is necessary to adjust the length and width of the steel material and the general grindstone with respect to the grain size of the diamond grindstone in order to perform diffusion wear efficiently. In the present invention, since the compound grinding wheel is formed into a cup shape and rotated to perform truing and dressing of the diamond wheel, the number of rotations of the cup-type compound grinding wheel is controlled by a motor without adjusting the length and width of the steel material and the general grinding wheel. In this case, the truing and dressing of the diamond grindstone can be performed under the condition where the best diffusion wear occurs.

As described above, if one cup-type composite grinding wheel is used, the truing and dressing of the diamond wheel can be easily performed with high precision simply by adjusting the rotation speed of the cup-type grinding wheel regardless of the grain size of the diamond wheel. It can be performed with high efficiency.

Further, the diamond grindstone is moved left and right by a high rigidity vertical surface grinding method (normally, a cup-type composite grinding wheel is set on the table, and the table is moved left and right). ), The truing and dressing of the diamond wheel can be performed only by grinding the cup-type compound grinding wheel, so that the cutting depth of the cup-type compound grinding wheel can be adjusted while adjusting the left and right feed speeds according to the run-out and wear condition of the diamond wheel. The amount can be changed on the order of microns, and highly accurate diamond grinding and truing and dressing can be performed.

[0030]

Hereinafter, the present invention will be described in detail based on illustrated embodiments. FIG. 1 shows a composite grinding wheel (Japanese Patent No. 182715).
No. 3), and a cup-shaped composite grinding wheel shown in FIGS. 2, 3, 4, and 5 is a cup-shaped composite grinding wheel. That is, FIG. 2 illustrates an embodiment of the fifth invention. FIG. 3 illustrates an embodiment of the sixth invention. FIG. 5 illustrates an embodiment of the seventh invention.

In FIG. 2, FIG. 3, FIG. 4, and FIG.
Is a cup-shaped body formed of a grindstone, a steel material, and other appropriate materials, and a carbon steel material for a machine structure of S25C or higher, a low alloy steel material for a machine structure, a carbon tool steel material,
Any one of the high-speed tool steel materials 2 and one of the general-purpose grinding wheels 3 of the vitrified grinding wheel and the resinoid grinding wheel, which is an artificial grinding material using an alumina grinding material or a silicon carbide grinding material. They are arranged alternately to form a striped structure. At the center of the bottom of the cup-shaped body 1 is provided a shaft-fitting portion 4 for attaching the rotary dresser to the spindle. When the rotary dresser is attached to the spindle, the rotation of the rotating shaft causes the peripheral upper surface of the cup-shaped body 1 to rotate in a plane. And a cup-type composite grinding wheel 5 characterized in that it can be alternately contacted with a diamond grinding wheel.

FIG. 2 shows a cup-shaped composite grinding wheel 5 a in which a striped structure of the steel material 2 and the general grinding wheel 3 is formed radially above the peripheral edge of the cup-shaped body.
Is a cup-shaped composite grinding wheel 5b in which a striped structure of a steel material 2 and a general grinding wheel 3 is formed in a spiral direction on the upper edge of the cup-shaped body, and FIG.
This is a cup-type composite grinding wheel 5c in a form in which a striped structure is formed radially on the upper edge of the cup-shaped body.

FIG. 6 shows a longitudinal rotation dresser 6 of the longitudinal rotation type equipped with the cup-type composite grinding wheel 5, which is provided on the spindle 7 of the longitudinal rotation dresser 6 at the center of the bottom surface of the cup-shaped body 1. The shaft mounting portion 4 is mounted and fixed. A motor 10 is mounted on the base of the spindle 7 and rotates the spindle 7 by its driving force. Then
The cup-type compound grinding wheel 5 attached to the spindle 7 of the longitudinal rotation dresser 6 is rotated so that the peripheral upper surface of the cup-shaped body becomes planar.

FIG. 7 shows a state in which the diamond grindstone 8 is brought into contact with the cup-type composite grinding grindstone 5 and the truing and dressing of the diamond grindstone 8 are performed by the vertical axis surface grinding method. The diamond grindstone 8 is mounted on a spindle 9 disposed substantially perpendicular to the spindle 7 of the longitudinal rotation dresser 6, and the cup-type composite grinding grindstone 5 and the diamond grindstone 8 are connected to each spindle 7. , 9 so that the diamond grindstone is fed to the spindle in the left-right direction while the diamond grindstone is in contact with the peripheral upper surface of the cup-type composite grinding wheel. That is, since the cup-type compound grinding wheel 5 rotates, the diamond wheel 8 can be trued and dressed by a plunge cut method in which only the feed X in the left-right direction is provided without feeding the diamond wheel 8 in the front-rear direction. .

FIG. 8 shows the operation time until the truing and dressing of the diamond grindstone is performed under the conditions shown in Table 1 until the 10 μm groove previously applied to the diamond grindstone is removed. With a cup-type composite grinding wheel, a 10 μm groove can be removed within 5 minutes.

[0036]

[Table 1]

Table 1 shows the conditions under which the diamond grinding stone was dressed and dressed. For comparison, the GC cup type grinding wheel (carbon silicon grinding wheel) used conventionally
The dressing conditions according to the above are also shown in the table.

FIG. 9 is a graph showing the relationship between the cumulative depth of cut and the amount of grinding wheel wear when grinding and dressing nitrogen silicon ceramics under the processing conditions of Table 2 after truing and dressing the diamond wheel under the conditions of Table 1. It is. It can be seen from the graph that the truing and dressing of the diamond wheel with the cup-type composite grinding wheel show the smallest change in the amount of wear of the grinding wheel, which indicates that good truing and dressing was performed.

[0039]

[Table 2]

Table 2 shows general grinding conditions for grinding silicon nitride ceramics with a truing and dressing diamond grindstone.

FIG. 10 is a graph showing the relationship between the cumulative depth of cut and the grinding wheel resistance when silicon nitride ceramics are ground under the processing conditions in Table 2 after truing and dressing the diamond wheel under the conditions shown in Table 1. It is. When the truing and dressing of the diamond grindstone was performed with the cup-type composite grinding wheel 5, the change in the grinding resistance was the smallest, and it was clarified that the truing and dressing were performed favorably.

In order to efficiently generate the diffusion wear described above, the number of rotations of the cup-type composite grinding wheel 5 is increased by 10
It is very good if the rotation is adjusted within the range of 0 rpm to 1500 rpm and the truing and dressing of the diamond grindstone 8 are performed at the optimum rotation speed. In other words, cup-shaped composite
The rotation speed of the grinding wheel 5 is in the range of 100 rpm to 1500 rpm.
By using the conventional compound grinding wheel by adjusting within the enclosure
Of diamond grinding stone using diffusion wear phenomenon
And dressing method (Patent No. 1827153)
Shown below are the lengths of steel materials due to differences in the grain size of diamond grinding wheels.
It is no longer necessary to adjust the table feed speed. That is,
The table feed speed is constant.
It slows down and speeds up the rotation of the grindstone with coarse grains.

For example, a grinding wheel peripheral speed of 2000 m / min
In the case of, the grinding wheel grain size # 80 is 1000 rpm, the grinding wheel grain size #
For 170, 500 rpm, for grindstone particle size # 600, 1000
When rotating at rpm, a good tool
Dressing can be performed. Therefore, one
Cup type composite grinding wheel 5
The truing and dressing of the whetstone can be performed efficiently.
Can be.

In order to efficiently generate diffusion wear and perform truing and dressing of the diamond grindstone 8 with high accuracy and high efficiency, the longitudinal rotation dresser 6 is used.
When the cup-type composite grinding wheel 5 is mounted on the surface of the substrate, the rigidity is increased by mounting the spindle 7 of the cup-type composite grinding wheel 5 at right angles to the spindle 9 of the diamond wheel 8, which is very good.

The cup-type composite grinding wheel 5 is a surface grinder.
Set on a table and rotate while turning the diamond whetstone
In front of the table for touring dressing
Post feed (feed amount of about 1/3 of the grinding wheel width per pass)
Is unnecessary, and the crane of narrow cutting whetstone (2mm or less)
-Dressing is also possible.

[0046]

According to the present invention, as described above, truing and dressing of a highly accurate and highly efficient diamond grindstone can be performed quickly at the same time, so that the following effects can be obtained.

A feature of the present invention is that a compound grinding wheel is formed into a cup shape so that truing and dressing of a diamond wheel can be performed with high accuracy and efficiency by effectively utilizing diffusion wear . This is a surface grinder
It was placed in on the table, to allow the truing and dressing diamond grindstone while rotating adjustment
It was done. As a result, the conventional compound grinding for surface grinding
Diamond grinding stones with grinding wheels and compound grinding wheels for cylindrical grinding
Higher accuracy than truing and dressing methods
In addition, it is possible to perform truing and dressing of a highly efficient diamond grindstone.

Rotation speed and diamond of cup-type composite grinding wheel
Feed speed in the left and right direction with respect to the spindle of the Mondo grinding wheel
It is not necessary to change the length and width of steel and general grinding wheels according to the grain size of the diamond grinding wheel by adjusting the combination of the two types as operating factors , and with one cup-type composite grinding wheel, high precision and high efficiency can be achieved. Truing and dressing of diamond wheels can be performed.

Since the truing and dressing of the diamond grindstone can be performed by the vertical axis surface grinding method having high rigidity, the truing and dressing of the diamond grindstone can be performed with high precision.

[Brief description of the drawings]

FIG. 1 is an explanatory perspective view of a compound grinding wheel shown in the invention of Japanese Patent No. 1827153.

FIG. 2 is a perspective view showing one embodiment of a cup-type composite grinding wheel formed into a cup-type.

FIG. 3 is a perspective view showing another embodiment of a cup-type composite grinding wheel formed into a cup-type.

FIG. 4 is a perspective view showing another embodiment of a cup-type composite grinding wheel formed into a cup-type.

FIG. 5 is a perspective view showing another example of a cup-type composite grinding wheel formed into a cup-type.

FIG. 6 is a perspective view showing a state of a longitudinal rotation dresser on which the cup-type composite grinding wheel is mounted.

FIG. 7 is a perspective view showing the state of truing and dressing of a diamond grindstone by the vertical plane grinding method using the cup-type composite grinding grindstone.

FIG. 8 is a graph showing the relationship between the dressing and dressing time and the change in the groove depth of the diamond grindstone.

FIG. 9 is a graph showing the relationship between the accumulated depth of cut and the amount of grinding wear in grinding after truing and dressing of a diamond grindstone by a cup-type compound grinding grindstone.

FIG. 10 is a graph showing the relationship between the cumulative depth of cut and grinding resistance in grinding after truing and dressing of a diamond grindstone by a cup-type compound grinding grindstone.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Cup type body 2 Steel material 3 General grinding wheel 4 Shaft attachment part 5 Cup type compound grinding wheel 6 Vertical axis rotating dresser 7 Spindle 8 Diamond wheel 9 Spindle 10 Motor

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) B24B 53/00 B24B 53/12

Claims (7)

(57) [Claims] 1. A grinding wheel is formed in a cup-shaped body, and a steel material of any one of carbon steel material for machine structure of S25C or higher, a low alloy steel material for machine structure, a carbon tool steel material, and a high speed tool steel material is formed on an upper peripheral edge thereof. And artificial abrasives using alumina or silicon carbide abrasives, alternately arranging one of the vitrified grinding wheels or resinoid grinding wheels to form a striped structure The cup-type composite grinding wheel thus obtained is mounted on a spindle of a longitudinal rotation dresser so that the peripheral upper surface of the cup-type composite grinding wheel rotates in a plane, while the diamond grinding wheel is Attached to a rotating shaft arranged substantially perpendicular to the spindle of the dresser, while rotating the cup-type compound grinding wheel and the diamond wheel, the cup-type compound grinding wheel A diamond wheel is brought into contact with the upper surface of the rim, and the diamond wheel is fed to the spindle in the left-right direction as necessary, whereby the diamond wheel is attached to the steel part of the cup-type composite grinding wheel and the general grinding wheel. Contact alternately,
High precision diamond wheel with a cup-type composite grinding wheel characterized by grinding by diffusion wear
High efficiency truing and dressing method. 2. A vertical grinding dresser for a cup-type composite grinding wheel.
On the peripheral edge of the cup-type composite grinding wheel
The shaft is set so that the surface rotates in a plane, and
The Mondo whetstone is opposed to the spindle of the dresser.
To a rotating shaft arranged almost at right angles,
The cup-type composite grinding wheel and diamond wheel are rotated.
While holding the diamond on the top surface of the peripheral edge of the cup-type compound grinding wheel.
The grinding wheel, and if necessary, the diamond wheel
So that the spindle is fed left and right.
In this way, the steel part of the cup-type composite grinding wheel and the general
The diamond wheel is alternately brought into contact with the grinding wheel to
Vertical surface grinding method that grinds by scattering wear
2. The high-precision and high-efficiency diamond wheel using the cup-type compound grinding wheel according to claim 1 , wherein the number of rotations of the cup-type compound grinding wheel is adjusted as an operation factor so as to efficiently generate diffusion wear. Truing and dressing method. 3. A cup-shaped compound grinding wheel is rotated by a longitudinal rotation dressing.
On the peripheral edge of the cup-type composite grinding wheel
The shaft is set so that the surface rotates in a plane, and
The Mondo whetstone is opposed to the spindle of the dresser.
To a rotating shaft arranged almost at right angles,
The cup-type composite grinding wheel and diamond wheel are rotated.
While holding the diamond on the top surface of the peripheral edge of the cup-type compound grinding wheel.
The grinding wheel, and if necessary, the diamond wheel
So that the spindle is fed left and right.
In this way, the steel part of the cup-type composite grinding wheel and the general
The diamond wheel is alternately brought into contact with the grinding wheel to
Vertical surface grinding method that grinds by scattering wear
In the rotation speed of the cup-type composite grinding wheel, feed speed in the lateral direction with respect to the spindle of the diamond grindstone
2. The cup according to claim 1, wherein the degree is used as an operating factor to adjust the diffusion wear efficiently.
High-precision, high-efficiency truing and dressing method for diamond wheels using a die compound grinding wheel. 4. A grinding wheel is formed in a cup-shaped body, and a steel material of any one of S25C or higher carbon steel material for machine structure, low alloy steel material for machine structure, carbon tool steel material, and high speed tool steel material is formed on the periphery of the grinding wheel. And artificial abrasives using alumina or silicon carbide abrasives, alternately arranging one of the vitrified grinding wheels or resinoid grinding wheels to form a striped structure At the same time, a shaft attachment part to the spindle of the rotating dresser is provided at the center of the bottom of the cup-shaped body, and when the rotating dresser is attached to the spindle, the rotation of the rotating shaft causes the peripheral upper surface of the cup-shaped body to rotate in a plane. A cup-type composite grinding wheel , characterized in that the cup-type composite grinding wheel is configured to be able to contact alternately with a diamond wheel.
Alternately contact diamond grinding stones with the general grinding wheel
Diamond grinding by diffusion friction
For simultaneous truing and dressing of stones
Cup type composite grinding wheel. 5. A grinding wheel is formed in a cup-shaped body, and a steel material of any one of carbon steel material for machine structure of S25C or higher, a low alloy steel material for machine structure, a carbon tool steel material, and a high speed tool steel material is formed on an upper peripheral portion thereof. And a synthetic abrasive using an alumina-based abrasive or a silicon carbide-based abrasive, a vitrified grinding wheel, or a general grinding wheel of any of the resinoid grinding wheels is alternately arranged in the radial direction to form a cup-shaped grinding wheel. On the periphery of the body
The cup-type composite grinding wheel according to claim 4 , wherein a striped structure is formed in the portion . 6. A grinding wheel is formed in a cup-shaped body, and a steel material of any one of S25C or higher carbon steel material for machine structure, low alloy steel material for machine structure, carbon tool steel material, and high speed tool steel material is formed on the upper edge of the grinding wheel. And a synthetic abrasive using an alumina-based abrasive or a silicon carbide-based abrasive, a vitrified grinding wheel, or a general grinding wheel of a resinoid grinding wheel is alternately arranged in the spiral direction to form a cup-shaped grinding wheel. Perimeter of body
The cup-type composite grinding wheel according to claim 4 , wherein a striped structure is formed on an upper portion . 7. A grinding wheel is formed in a cup-shaped body, and a steel material of any one of S25C or higher carbon steel for machine structure, a low alloy steel material for machine structure, a carbon tool steel, and a high speed tool steel is formed on an upper peripheral portion thereof. And a synthetic abrasive using an alumina-based or silicon carbide-based abrasive, a vitrified grinding wheel, or a general grinding wheel of any of the resinoid grinding wheels is alternately arranged in the radial direction to form a cup-shaped grinding wheel. Upper body margin
5. The cup-type composite grinding wheel according to claim 4 , wherein a striped structure is formed on the composite grinding wheel.