The present invention relates to a method for manufacturing a threaded tool for use in grinding the tooth surfaces of a face gear.
Gears are frequently used in automotive transmissions and the like. In recent years, there has been a demand for improvement in gear machining accuracy for the purpose of reducing the vibrations and noises of transmissions. Generally, gear machining involves performing gear cutting on a prescribed gear blank to form a tooth profile, performing heat treatment on the gear after the gear cutting, and then performing finishing (grinding) to remove strain and the like resulting from the heat treatment. Usually, each tooth surface of a machining-target gear is ground by bringing the machining-target gear after its heat treatment and a grinding wheel into mesh with each other at a crossed axes angle. As tools to be used in such grinding methods, there are tools of various shapes such as externally toothed shapes, internally toothed shapes, and threaded (worm) shapes for the shapes of gears to be ground.
Patent Document 1: Japanese Patent No. 3637357 (see [
Patent Document 2: Japanese Patent No. 3665874 (see [
Non-Patent Document 1: Hiroshi Gunbara, Kazumasa Kawasaki, “Geometrical Design of Point-Contact Face Gear”, Transactions of the Japan Society of Mechanical Engineers, Part C, Volume 74, Issue 745, No. 08-0151, p. 197-201
In recent years, there has been a demand for further improvement in machining accuracy not only for external gears but also for face gears (see Non-Patent Document 1, for example) . In this respect, as a tool for use in grinding a machining-target face gear, use of a threaded grinding wheel has been considered, the threaded grinding wheel being formed in such a way as to decrease gradually in diameter from the center of the grinding wheel in the direction of the rotation axis thereof toward either end in the axial direction thereof (see Patent Documents 1 and 2 listed above, for example).
There is, however, no consideration in either Patent Document 1 or 2 for what specifications the threaded grinding wheel should have when it is used to finish (grind) a machining-target face fear. In other words, there has been no consideration for a method for manufacturing a threaded grinding wheel which can grind a machining-target face gear accurately.
Thus, the present invention has been made to solve the above-mentioned problem, and an object thereof is to provide a method for manufacturing a threaded tool which can manufacture a threaded tool capable of grinding a face gear accurately.
A method for manufacturing a threaded tool according to a first invention for solving the above-mentioned problem is a method for manufacturing a threaded tool which is to be formed in such a way as to increase gradually in diameter from axial ends thereof toward an axial center thereof, for use in gear machining of a machining-target face gear, characterized in that the method comprises:
According to the present invention, it is possible to realize a method for manufacturing a threaded tool which can manufacture a threaded tool having specifications allowing accurate grinding of a machining-target face gear.
A mode for carrying out a method for manufacturing a threaded tool according to the present invention will be described below with reference to
A threaded grinding wheel (threaded tool) to be manufactured by a method for manufacturing a threaded tool according to this embodiment is a tool for use in a grinding process in gear machining of a face gear. As shown in
Now, a method for manufacturing a threaded grinding wheel with the above configuration will be specifically described with reference to
As shown in Parts (a) and (b) of
First, as shown in Parts (a) and (b) of
Then, based on the virtual gear 14, a virtual internal gear 15 (see Parts (a) and (b) of
Then, as shown in Parts (a) and (b) of
Thus, in the case of grinding each tooth surface (tooth 12) of the machining-target face gear 11 by using the threaded grinding wheel 10 manufactured through the above-described steps, teeth 12 of the machining-target face gear 11 and edges 10a of the threaded grinding wheel 10 are brought into mesh with each other as shown in
As described above, the method for manufacturing a threaded tool according to this embodiment includes: based on a prescribed pinion 13 which meshes with a machining-target face gear 11, setting a virtual gear 14 which meshes with the prescribed pinion 13 and has a greater number of teeth than the number of teeth of the prescribed pinion 13; based on the virtual gear 14, setting a virtual internal gear 15 which is internally toothed with the same number of teeth as the number of teeth of the virtual gear 14; and based on the virtual internal gear 15, setting a threaded grinding wheel 15 which has specifications for use in gear machining of the virtual internal gear 15. Thus, a threaded grinding wheel 10 which meshes with the machining-target face gear 11 can be manufactured. Specifically, since the virtual gear 14 is set in such a way as to mesh with the prescribed pinion 13 and have a greater number of teeth than the number of teeth of the prescribed pinion 13, it is possible to manufacture a threaded grinding wheel 10 which meshes with the machining-target face gear 11 and has edges 10a that, in the meshing state, come into point contact with teeth 12 of the machining-target face gear 11 instead of line contact therewith, i.e. a threaded grinding wheel 10 which can grind the machining-target face gear 11 accurately. Moreover, the machining-target face gear 11 can be ground with the grinding-wheel rotation axis B1 of the threaded grinding wheel 10 being oriented at the predetermined crossed axes angle e with respect to the workpiece rotation axis C1. Thus, the grinding speed can be increased, thereby making it possible to improve the sharpness of grinding action of the threaded grinding wheel 10 and increase the life thereof.
Note that although a method for manufacturing a threaded grinding wheel has been described hereinabove, a threaded grinding wheel obtained by the above-described method for manufacturing a threaded grinding wheel may be dressed by using the same method as a method for dressing a threaded grinding wheel for machining an internal gear (e.g. by using a dressing gear, a disk dresser, or the like). In this way, it is possible to recover the sharp tooth surfaces.
The present invention is a method for manufacturing a threaded tool and can manufacture a threaded tool which has specifications allowing accurate grinding of a machining-target face gear. Thus, the present invention is usefully applicable to machine tool industries and the like.
Number | Date | Country | Kind |
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2011-153429 | Jul 2011 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2012/053748 | 2/17/2012 | WO | 00 | 2/11/2014 |