Table feed mechanism for machine tool

Details Table feed mechanism for machine tool Table feed mechanism for machine tool

1997-09-10

2001-07-03

Scherbel, David A. (Department: 3723)

Work holders

Holder mounted for movement

With plural means for changing holder positions

C269S060000

Reexamination Certificate

active

06254075

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates to a table feed mechanism for a machine tool. In the conventional machine tools where a relative position of work to a tool can be determined along a plural directions (i.e., a X-dir.; a Y-dir.; and a Z-dir.), there are several types of machine tools; one of the types is to drive a tool along the three directions (XYZ-dirs.) and another type is to drive the tool along the two of the directions (for instance YZ-dirs.) and to drive a table for mounting the work along the rest of the direction (for instance X-dir.). In the machine tool of the latter one, it is commonly the case that a nut is fixedly mounted on the table and a feed screw shaft is provided to engage with the inner thread of the nut and then the table is fed by driving the feed screw shaft.
With the aforementioned type of table feed mechanism to feed the table and the work mounted thereon, it is likely the case that the screw shaft is subjected to a great magnitude of tension or compression load due to the inertia force caused by the weight of the object to be fed (including the table and the work) at the time of the acceleration or deceleration operation of the feeding operation. This tension or compression force generated on the feed screw shaft causes the deflection of the shaft that generates an undesirable error in the work path in a non-negligible order. In addition, the inertia force generated on the shaft especially when the shaft being subjected to the acute acceleration and deceleration could also cause the torsional deflection on the shaft. And this torsional deflection of the shaft in turn produces the error in the actual position of the table because of the angular phase position of the drive shaft of the motor will be affected by the torsional deflection.
In order to solve the aforementioned problem of the conventional feeding mechanism of the machine tool, it is natural for the person with ordinary skill in the art to think that increasing the rigidity (including rigidity against the torsional deflection and the rigidity against the bending deflection) of the feed screw shaft to basically strengthen the feed shaft. Furthermore, it is quite natural to think that to gain more rigidity, increasing the diameter of the screw shaft is the simple way. However, the moment of inertia is proportional to the fourth power of the diameter of the torsional shaft, thus slight increase of the diameter of the shaft may significantly increase the moment of inertia. As a result, significantly increased drive power would be required for the motor to drive the thickened screw shaft especially when at accelerating and decelerating procedures. Thus it may necessitate a procurement of a non-standard type larger motor for this purpose, leading a cost increase for the machine tool as a whole and cost reflection upon the products made by the machine tool.
SUMMARY OF THE INVENTION
In view thereof, an object of this invention is to provide the feeding mechanism suppressing a significant increase of the required drive load of the screw shaft while maintaining the accuracy in feeding the relatively heavy table and the work mounted thereon.
In order to meet the above object, the table feed mechanism of the machine tool, according to this invention, comprises: a bed; a table slidably mounted on the bed for mounting a work thereon and for forming a plurality of screw holes therein; a plurality of feed screw shafts engageable with the screw holes respectively; a drive means for simultaneously driving the feed screw shafts to move the table.
With the thus constructed table feed mechanism, the tension or compression force, generated by the inertia of the table and the work both combined when being accelerated or decelerated, is distributed to act upon each feed screw shaft. Thus the tension or compression force that each feed screw shaft must bear is greatly lowered as compared to the case when the single feed screw shaft is equipped as for the conventional machine tool. As a result, a feed motion of the table and work mounted thereon is accurately controlled. Furthermore, a momentum load subjected to the drive member such as a motor is not increased as much as the case when increasing the diameter of the feed screw shaft, thus it enhances an availability of employment of the ordinary motor of smaller size to drive each feed screw shaft.
These and other objects, features and advantages of the present invention will become more apparent upon reading the following detailed description with reference to accompanied drawings.


REFERENCES:
patent: 3290039 (1966-12-01), Lancaster
patent: 3801090 (1974-04-01), Gillen
patent: 5165296 (1992-11-01), Yanagisawa
patent: 5311791 (1994-05-01), Yanagisawa
patent: 5370214 (1994-12-01), Katahira
patent: 5407184 (1995-04-01), Shoda
patent: 5468101 (1995-11-01), Shoda
patent: 9-42406 (1997-02-01), None

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