SU806268A1 - Method and apparatus for determining parameters of force loading of tool cutting portion - Google Patents

Description

the cutting part of the brazed incisors with a chip breaker (Fig. 2)

 P) i.

TO,

. 0.17-f

. O.OZfe

 Pr Oj, 927

, 056

L of

I

where RC and RC are the axial and tangential component of the force acting directly on the cutting part of the tool,

Pj and P-axis and tangential to the components of the total cutting force.

The expressions given for K and Kj correspond to the distance from the structural shaft to the cutting blade 6 4.0 m. Similar expressions are obtained for other values. The indicators t and S characterize the influence of the depth of cut and feed on the ratios Kif and K; j. For the cutters with the considered form of sharpening the cutting part, the error in measuring the force P according to the results of measuring the total force is greater than the force P, since Ku K. Moreover, the determining effect on the value of Kj (has the supply S.

The device for implementing the proposed method is additionally equipped with a functional converter, made in the form of an amplifier with variables depending on the parameters of the cutting tool used and the current values of the cutting depth and the supply of gain coefficient, to the input of which the output of the matching amplifier is connected.

The device (Fig. 3) consists of a sensor 1, measuring the power parameter P, an amplifying amplifier 2 and a functional converter 3 The functional converter contains three connected in series through the emitter repeaters assembled on triodes T and Tr and the resistances R and R2 of the switches P, G. 2 P,.

Each switch serves to change the gain of the functional converter 3 in accordance with the specific values of I, t, S by changing the output resistances of the dividers containing the resistances.

The device works as follows.

Sensor 1 measures the controlled power parameter P during the cutting process. The signal from the sensor output is amplified by the matching amplifier 2. The voltage Ug from the output of the amplifier is fed to the input of the functional converter 3.

The resistances Rj, Rg, ..., Rg of the switch P are selected so that each position of the moving contact of the switch P / corresponds to a certain value of the parameter I of the cutting tool used. Resistance R,,

,, switch P and

The resistances Rg, RS-JI, ..., Rg, switch P3 are selected in accordance with the degree of influence of the depth of cut and feed on the value of the reference p / P. The triodes T and Tg serve to eliminate the mutual influence of the switches on each other. Voltage

at the output of the functional converter 3 x 1, the force acting directly on the cutting part of the tool.

When using the proposed device in automatic systems

The control of the processing mode of the moving contacts of the switches RD and PJ should be coordinated with the information on the current values of the depth of cut and feed.

Claims (2)

1. A method for determining the parameters of the force loading of the cutting part of the tool with chip-forming elements on the front surface, according to which the monitored force parameter is determined by the measurement results of the deformation elements of the AIDS system during cutting, characterized in that, in order to determine the forces acting directly on the cutting part of the tool, measure and compare the same power parameters when machining in the same conditions with the used cutting tool and tool without page zhkoformiruyuvdnh elements on the front surface 5 and adjust the current value of the monitored power parameter in accordance with the relationship between the power parameters of the same name. 2. A device for implementing 0 of a method according to claim 1, comprising a sensor controllable power parameter and a matching amplifier, characterized in that it is supplied connected to the output of the matching The f amplifier has a variable gain amplifier containing three switches connected in series through emitter repeaters, each switch being connected to resistance dividers. Sources of information taken into account in the examination 1. Balakshin B.S. Adaptive machine control. M., Mechanical Engineering, 1973, p. 443-474. Figg