Numerically controlled system and backlash compensation...

Electricity: motive power systems – Positional servo systems – Program- or pattern-controlled systems

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C318S630000, C318S632000

Reexamination Certificate

active

06252368

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a numerically controlled or NC system, such as an NC machining system, an NC robot system, or an NC carrier system, and a backlash compensation device for use with such an NC system. More particularly, it relates to improvements for compensating for backlash error produced upon a reversal of the direction of driving an object to be controlled.
2. Description of the Prior Art
For example, prior art NC machining systems can machine an object to be machined (or work) into a complicated contour by securing the object to be machined onto a table and numerically controlling the relative distance between the table and a machine tool. In general, NC machining systems provide three servomotors that independently operate on X, Y, and Z axes perpendicular to each other, respectively, and transmit rotational driving forces generated by the three servomotors to members for supporting the table and the machine tool so as to control the relative distance between the table and the machine tool.
In prior art NC systems, typified by such NC machining systems, there can cause a mismatch between desired amounts of relative travel of the table and work, which are given as control values, and the actual amounts of relative travel of the table and work, due to backlash and play in driving force transmitting mechanisms, such as servomotors disposed as driving sources, ballscrews each for transforming rotary movement of each of the servomotors into a linear movement of a table, coupling between each servomotor and each ballscrew, linear guides for defining the direction in which the table moves, and the table to which either an object to be machined (or work) or a machine tool is secured, when the direction of rotation of each servomotor is reversed. As a result, the contouring accuracy cannot be better than the backlash error.
Referring next to
FIG. 14
, there is illustrated a block diagram showing the structure of a prior art numerically controlled system, as disclosed in Japanese Patent Application Publication (TOKKAIHEI) 10-154007, which is so constructed as to compensate for backlash error. In the figure, reference numeral
4
denotes a motor, numeral
35
denotes a driving force transmitting unit, and numeral
1
denotes an object to be controlled.
Reference numeral
7
denotes a position command generating unit for generating a position command signal, numeral
8
denotes a command reversal determination unit for determining whether the position command signal has just reversed an upward or downward trend in its amplitude or level, that is, whether or not the direction of driving the object
1
has just been reversed, numeral
36
denotes a displacement counter for obtaining a displacement of the object to be controlled since the reversal of the position command signal, numeral
37
denotes a setting unit for setting a maximum value of backlash compensation, numeral
38
denotes a displacement-dependent compensation computation unit for computing a compensation value corresponding to the displacement that the object to be controlled has undergone since the reversal of the position command signal, numeral
39
denotes a compensation differential value computation unit for computing a compensation differential value based on the compensation value from the displacement-dependent compensation computation unit
38
at predetermined intervals for compensation, numeral
40
denotes an adder for adding the compensation differential value to the position command signal, and numeral
41
denotes a control device for supplying a control current whose magnitude depends on the output of the adder
40
to the motor
4
.
In operation, every time the position command signal from the position command generating unit
7
reverses an upward or downward trend in its amplitude or level, the command reversal determination unit
8
furnishes reversal information indicating the fact and the displacement counter
36
obtains a displacement that the object to be controlled has undergone since the reversal of the position command signal. Based on the maximum value for backlash compensation from the setting unit
37
and the displacement of the object to be controlled from the displacement counter
36
, the displacement-dependent compensation computation unit
38
generates a backlash compensation value corresponding to the displacement that the object to be controlled has undergone since the reversal of the position command signal. The compensation differential value computation unit
39
then computes a compensation differential value from the backlash compensation value at predetermined intervals for compensation, and the adder
40
adds the compensation differential value to the position command signal from the position command generating unit
7
. The control device
41
supplies a control current whose magnitude depends on the output of the adder
40
to the servomotor
4
, thus controlling the position of the driving force transmitting unit
35
and hence the position of the object
1
to be controlled.
As previously mentioned, prior art numerically controlled systems make it possible to numerically control an object to be controlled so that it further travels a distance corresponding to the backlash error, every time the motor changes a direction of rotation thereof, by adding a backlash compensation value with respect to the reversed direction of rotation of the motor to the position command value.
Since prior art numerically controlled systems gradually increase the backlash compensation value according to the displacement that the object to be controlled has undergone since the reversal of the direction of rotation of the motor in addition to adding the backlash compensation value to the position command value, they can compensate for the backlash error having a tendency to gradually increase since the reversal of the direction of rotation of the motor.
A problem with prior art numerically controlled systems such as NC machining systems is that a high degree of contouring accuracy cannot be achieved. For example, even though the relative feed velocity of the table against the machine tool is reduced to a very low one in order to provide a high degree of contouring accuracy which cannot be achieved with a normal machining velocity, the above-mentioned prior art compensation method based on the displacement of the object to be controlled cannot compensate for the backlash error effectively because the way that the backlash error occurs is changed when the relative feed velocity of the table against the machine tool is very low. Thus, prior art numerically controlled machining systems cannot achieve a desired high degree of contouring accuracy even though the relative feed velocity of the table against the machine tool is reduced to a very low one in order to improve the contouring accuracy. Especially, the problem about the contouring accuracy, which is caused by backlash, can easily arise when machining an object into a perfect circle with multi axis synchronous control.
In prior art numerically controlled systems, the backlash compensation value can be computed at predetermined intervals for compensation in order to improve the contouring accuracy. An exponential computation that needs many arithmetic operations is needed to compute the backlash compensation value. A certain time interval is thus required for every computation of the backlash compensation value at predetermined intervals, and therefore the number of times that the backlash compensation value is updated per time is limited. As a result, the time period during which the backlash error is compensated for with the current backlash compensation value must be increased, and an error introduced into the backlash compensation value with respect to the backlash error can be increased. Thus a desired high degree of contouring accuracy cannot be provided.
Instead of the above-mentioned semi-closed feedback method, a full-closed feedback method comprising the steps of

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Numerically controlled system and backlash compensation... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Numerically controlled system and backlash compensation..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Numerically controlled system and backlash compensation... will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2519983

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.