CS198734B1 - Method of control of bodies position by the asistence of drives working in step-by-step regime and connexion to its execution - Google Patents

Abstract

Control of body position by means of drives working in step by step mode, in particular Linear hybrid motors consist of: command to change the position of the body by the next step is sent when the instantaneous value is equal speed in the downstream part of the transition characteristics with the specified reference value. The advantages of the method are the removal of the sensors positions and related evaluation circuits. When changing mechanical and electrical parameters there is no need to change frequency stepping. The wiring related to the control mode can be used especially for transport and feeders equipment and manipulators where they unevenly changes the load and where it is required to be accurate polarity stepping in the shortest time.

Description

BACKGROUND OF THE INVENTION The present invention relates to a method for controlling the position of bodies by means of step-by-step drives, in particular linear hybrid motors, and to the wiring thereof.

In principle, stepping frequency is controlled from a separate, independent source of control pulses · In the second case to which the invention relates, the stepping stepwise, ie · * The first drive stepping is used when constant values of the mechanical and electrical parameters of the motor can be guaranteed · When changing these values, for example when changing the load, the stepping frequency must be retuned to avoid to omit steps and thus to mistake the relative position of the action and reaction parts of the engine.

The second method of step-by-step drive control by position sensors located at zero point paths, i.e. at locations where the traction force of the motor changes the sign, requires the use of position feedback for each motor condition. The state of the engine is understood to be the unequivocal relative spatial position of the action and reaction parts of the engine in a step throw. The stepping frequency is set automatically, depending on the previous step, by means of preformed pulses applied to the actuator as it corresponds to the instantaneous mechanical and electrical parameters of the actuator. The disadvantage of this method of controlling the stepping of the motor is the necessity to place a large number of position sensors in the part of the path where the motor steps. Switching to the next step occurs when the speed of the previous step has reached its maximum value. In particular, in systems with low damping, the maximum stepping speed values increase above the permissible limit so that the braking force of the motor is not sufficient to stop the motor in the last step and thus to secure the desired position.

The object of the present invention is to eliminate or substantially mitigate the above-mentioned disadvantages, which is achieved according to the principle of the invention in that the command to change the position of the body by the next step is given by equating the instantaneous velocity.

The advantages of this method are the removal of the position sensors and the associated circuitry. When changing the mechanical and electrical parameters, there is no need to retune the stepping frequency. BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained with reference to the drawing, in which FIG.

In Fig. 1, the individual steps 1, 2 are indicated on the horizontal axis in time sequence t,

2, drive and on the vertical axis the velocity of each step. The frequency value Vp corresponding to the speed setting is indicated in dashed lines parallel to the horizontal axis. However, neither the frequency nor the amplitude of the speed of the individual steps is the same. As soon as the instantaneous value of decay in the descending part of the transient characteristic drops to the level of the specified reference value Vp. the comparator equips the command pulse to the next step.

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Fig. 2 shows the position control circuit according to the invention. 3 indicates a speed sensor connected to comparator K, to which a reference value Vp is applied. * A comparator K is connected to the output of comparator K, to which the actuator 0 is connected. * The value of the output of the speed sensor 3 corresponding to the instantaneous step speed is compared in the comparator K with the given reference value Vp * When the reference value Vp is co-denoted with the value corresponding to the instantaneous speed The wiring according to the invention can be advantageously used, in particular, for transport devices, feeders and manipulators, where the load is unevenly changed and where it is necessary to adopt the exact position of the stepping over time as short as possible.

Claims (2)

1 * A method of controlling the position of bodies by means of step-by-step drives, characterized in that the command to change the position of the body by the next step is transmitted at the moment of equality of instantaneous value of descent in descending part 2 * Connection for carrying out the method according to claim 1, characterized in that the output of the speed sensor (3) whose value corresponds to the instantaneous step speed is connected to the first input of the comparator (K), to the second input of which the reference value output (Vp) the output is connected to the actuator input (0) of the actuator (M) via the shaping member (T).