1. Field of the Invention
The present invention relates to a method of manufacturing a revolving whetstone and a revolving whetstone manufactured by the same, in particular, it relates to a method of manufacturing revolving whetstones such as an offset type revolving whetstone for polishing and grinding (hereinafter, referred to as “polishing”), a flat type revolving whetstone for cutting, a disk revolving whetstone for polishing, a revolving whetstone with sandpaper for polishing and the like, and revolving whetstones manufactured by the same.
2. Description of the Related Art
Conventionally, the offset type revolving whetstone for polishing, the flat type revolving whetstone for cutting, the disk revolving whetstone for polishing, the revolving whetstone with sandpaper for polishing and the like have been known widely (for example, refer to Japanese Patent Application Laid-Open Publication No. H5-51562).
An example of the revolving whetstone known in the conventional art disclosed in Japanese Patent Application Laid-Open Publication No. H5-51562 and the like is shown in
The whetstone body 52 is made by mixing an abrasive grain (for example, bauxite) and binder resin, and molding and sintering the same, and has a central portion 52a in which the whetstone center hole 53 is arranged and an effective whetstone circular portion 52b that is arranged in the circumferential outside of the central portion 52a as one body, and in addition, a glass cloth reinforcing member 55 is inserted into the inside of the central portion 52a and the effective whetstone circular portion 52b. In addition, the reinforcing metal fitting 54 is made into one body with the whetstone body 52 at the time of molding the whetstone body 52.
Next, the case where the revolving whetstone 51 is attached to a hand grinder for use is explained. In the grinder to which the revolving whetstone 51 is attached, a whetstone driving shaft 62 protrudes from a grinder main body 61 as shown in
When the revolving whetstone 51 is attached to the hand grinder, first, the whetstone engaging portion 62b that is arranged on the whetstone driving shaft 62 is inserted into the whetstone center hole 53, and one side of the revolving whetstone 51 is positioned to contact the flange 62a. Subsequently, the fastening nut 63 is screwed into the screw portion arranged in the end of the whetstone driving shaft 62 protruding from the other side of the revolving whetstone 51, and the revolving whetstone 51 is fastened together with the flange 62a. Thus, the revolving whetstone 51 is precisely centered and attached to the whetstone driving shaft 62.
The revolving whetstone 51 arranged to the grinder in this manner rotates together with the whetstone driving shaft 63, and is made to contact the surface of a workpiece to be polished 70 at the angle usually around 15 to 30 degrees and its polishing is carried out. In addition, the effective whetstone circular portion 52b is abraded as the polishing work goes on. When the abrasion progresses to the position shown by a mark Z in
In the conventional whetstone body 52 shown in
Therefore, the technical problem to be solved in order to obtain a revolving whetstone that enables to expand the life time of the revolving whetstone, and reduce the amount of whetstone material to be disposed, and accordingly, the present invention is intended to solve the problem.
The present invention has been made to achieve the object, and in the invention according to one embodiment, there is provided a method of manufacturing a revolving whetstone comprising a central portion in which a whetstone center hole into which a whetstone driving shaft of a grinder is inserted is arranged and a disk-shaped whetstone body that has an effective whetstone circular portion arranged in the circumferential outside of the central portion as one body, wherein the wall thickness of the central portion is formed thinner than the wall thickness of the effective whetstone circular portion, and a whetstone material for the thinned wall thickness of the central portion is put on the wall thickness surface of the effective whetstone circular portion, and the wall thickness of the effective whetstone circular portion is formed thicker than the wall thickness of the central portion.
According to this method of manufacturing, by use of the same amount as the amount of the conventional whetstone material used for forming a revolving whetstone, it is possible to form the thickness of the effective whetstone circular portion used actually by abrasion work thicker than the thickness of the whetstone circular portion of the conventional revolving whetstone, and obtain a revolving whetstone whose polishing effective amount is large.
Further, in the invention according to another embodiment, there is provided a revolving whetstone to be manufactured by a method of manufacturing a revolving whetstone that is equipped with a central portion in which a whetstone center hole into which a whetstone driving shaft of a grinder is inserted is arranged and a disk-shaped whetstone body that has an effective whetstone circular portion arranged in the circumferential outside of the central portion as one body, wherein the wall thickness of the effective whetstone circular portion is formed thicker than the wall thickness of the central portion.
According to this structure, even with the same amount of the whetstone material as the amount of the whetstone material used for forming the conventional revolving whetstone, it is possible to form the thickness of the effective whetstone circular portion used actually by abrasion work thicker than the thickness of the whetstone circular portion of the conventional revolving whetstone, and obtain an effective whetstone circular portion whose abrasion progress is small.
Furthermore, in the invention according to another embodiment, there is provided a revolving whetstone wherein a whetstone material for the thinned wall thickness of the central portion is put on the surface side of the opposite side of one side facing a workpiece to be polished of the effective whetstone circular portion, so that the thickness increases gradually from the rotation central side to the outer side.
According to this structure, it is possible to obtain a large area of the effective whetstone circular portion that contacts the surface of a workpiece to be polished at the angle usually around 15 to 30 degrees.
Moreover, in the invention according to another embodiment, there is provided a revolving whetstone wherein a whetstone material for the thinned wall thickness of the central portion is put on one surface side facing a workpiece to be polished of the effective whetstone circular portion, so that the thickness increases gradually from the rotation central side to the outer side.
According to this structure, it is possible to obtain a large area of the effective whetstone circular portion that contacts the surface of a workpiece to be polished at the angle usually around 15 to 30 degrees.
In the invention according to one embodiment, by use of the same amount as the amount of the conventional whetstone material used for forming a revolving whetstone, it is possible to obtain a revolving whetstone whose life time is longer than that of the conventional revolving whetstone, and accordingly, it is expected to reduce the number of exchange work operations, and improve workability and economic efficiency. In addition, because the amount of the whetstone material of the central portion to be disposed decreases, it is possible to reduce the amount of disposed wastes as much as possible.
In the invention according to another embodiment, it is possible to make the abrasion progress smaller than the conventional whetstone body, and, it is possible to form a revolving whetstone whose life time is longer than that of the conventional revolving whetstone. Thereby, it is expected to reduce the number of exchange work operations, and improve workability and economic efficiency. In addition, because the amount of the central portion to be disposed becomes small, it is possible to reduce the amount of disposed wastes.
In the invention according to another embodiment, because it is possible to obtain a large area of the effective whetstone circular portion to contact the surface of a workpiece to be polished, it is expected to improve the operation rate in addition to the effects of the invention according to other embodiments.
In the invention according to another embodiment, because it is possible to obtain a large area of the effective whetstone circular portion to contact the surface of a workpiece to be polished, it is expected to improve the operation rate in addition to the effects of the invention according to other embodiments.
The present invention has been made in order to expand the life time of a revolving whetstone, and reduce the amount of whetstone material to be disposed, and is realized by providing a method of manufacturing a revolving whetstone comprising a central portion in which a whetstone center hole into which a whetstone driving shaft of a grinder is inserted is arranged and a disk-shaped whetstone body that has an effective whetstone circular portion arranged in the circumferential outside of the central portion as one body, wherein the wall thickness of the central portion is formed thinner than the wall thickness of the effective whetstone circular portion, and a whetstone material for the thinned wall thickness of the central portion is put on the wall thickness surface of the effective whetstone circular portion, and the wall thickness of the effective whetstone circular portion is formed thicker than the wall thickness of the central portion, and a revolving whetstone manufactured by the method of manufacturing a revolving whetstone.
Hereinafter, a revolving whetstone of the present invention is explained with reference to a preferred embodiment.
In
The whetstone body 12 is made by mixing an abrasive grain (for example, bauxite) and binder resin, and molding and sintering the same, and has a central portion 12a in which the whetstone center hole 13 is arranged and an effective whetstone circular portion 12b that is arranged in the circumferential outside of the central portion 12a as one body, and in addition, a glass cloth reinforcing member 15 is inserted into the inside of the central portion 12a and the effective whetstone circular portion 12b.
When the whetstone body 12 is formed, the wall thickness of the central portion 12a is made thin, and the wall thickness of the effective whetstone circular portion 12b is made thicker than the wall thickness of the central portion 12a. In this case, the surplus whetstone material generated by making thin the wall thickness of the central portion 12a is put on the wall thickness surface of the effective whetstone circular portion 12b, and thereby the wall thickness of the effective whetstone circular portion 12b is so formed as to become thicker than the wall thickness of central portion 12a.
Therefore, as shown in
At the time of molding, in the state where the bottom mold 24 and the top mold 23 are set away, the reinforcing metal fitting 14, two glass cloth reinforcing members 15, 15 are attached to the bar-shaped core member 25 between the bottom mold 24 and the top mold 23 respectively, and an abrasive grain is mixed, and binder resin (12) in its molten state is injected into the portion between the bottom mold 24 and the top mold 23. Thereafter, the bottom mold 24 and the top mold 23 are made to contact each other by pressure, and the binder resin (12) is solidified, then a one-body revolving whetstone 11 in which the reinforcing metal fitting 14 and the glass cloth reinforcing members 15, 15 are inserted in the binder resin (12) as shown in
Next, a case where the revolving whetstone 11 is attached to a hand grinder for use is explained. In the grinder to which the revolving whetstone 11 is attached, a whetstone driving shaft 32 protrudes from a grinder main body 31 as shown in
When the revolving whetstone 11 is attached to the hand grinder, first, the whetstone center hole 13 is set to the whetstone engaging portion 32b arranged on the whetstone driving shaft 32, and one side 12b of the revolving whetstone 11 is positioned to contact the flange 32a. Subsequently, the fastening nut 33 is screwed into the screw portion arranged in the end of the whetstone driving shaft 32 protruding from the other side 12c of the revolving whetstone 11, and the revolving whetstone 11 is fastened together with the flange 32a. Thus, the revolving whetstone 11 is precisely centered and attached to the whetstone driving shaft 32.
The revolving whetstone 11 arranged to the grinder in this manner rotates together with the whetstone driving shaft 22, and is made to contact the surface of a workpiece to be polished 40 at the angle usually around 15 to 30 degrees and its polishing is carried out. In addition, the effective whetstone circular portion 12b is abraded as the polishing work goes on. When the abrasion progresses to the position shown by a mark Z in
However, the effective whetstone circular portion 12b of the whetstone body 12 of the present embodiment is formed that the wall thickness thereof is thicker than the wall thickness of the effective whetstone circular portion of the conventional whetstone main body formed with the same amount of whetstone material as mentioned above, and the thickness increases gradually from the rotation central side to the outer side, and accordingly, it is possible to obtain a large area of the effective whetstone circular portion 12b that contacts the surface to be polished of a workpiece 40 at the angle usually around 15 to 30 degrees. Thereby, the operation rate of the effective whetstone circular portion 12b is improved, and the time from polishing until it is necessary to exchange whetstones becomes longer, and the amount of whetstone material to be disposed decreases.
As can be seen from the above experiment results, it has been found that even when the same amount of a workpiece to be polished is polished, in the revolving whetstone 11 of the present embodiment, the abrasion amount of the whetstone main body 12 is smaller than that of the conventional revolving whetstone, and even if a revolving whetstone of the same external diameter is formed with the same amount of the whetstone material as that of the conventional whetstone used for molding a revolving whetstone, the life time of the revolving whetstone of the present embodiment becomes longer than that of the conventional revolving whetstone, and in addition, the operation efficiency becomes larger. Therefore, it is possible to reduce the number of exchange work times, and improve the economic efficiency. Furthermore, the amount of the whetstone material that constitutes the central portion to be disposed is smaller than that of the conventional structure, and accordingly, the amount of the whetstone material to be disposed becomes small, and the preferable effect to the environment is attained.
In addition, in the structure of the embodiment, the revolving whetstone 11 in which the surplus whetstone material generated by thinning the wall thickness of the central portion 12a is put on the surface 12d of the opposite side of one surface 12c facing the workpiece to be polished 40 is disclosed, however, the revolving whetstone 11 may be formed, for example, as shown in
Further, as several modified forms may be embodied in the present invention without departing from the spirit thereof, such modified embodiment are therefore intended to be embraced in the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2008-218407 | Aug 2008 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
2174902 | Stratford | Oct 1939 | A |
2268663 | Kuzmick | Jan 1942 | A |
2355667 | Ball et al. | Aug 1944 | A |
2597187 | Roshong | May 1952 | A |
3292311 | Hensley | Dec 1966 | A |
3482791 | Alliegro | Dec 1969 | A |
4541205 | Patrello | Sep 1985 | A |
Number | Date | Country |
---|---|---|
5-51562 | Jul 1993 | JP |
Number | Date | Country | |
---|---|---|---|
20100056032 A1 | Mar 2010 | US |