CN111061212A - Automatic calibration control method and device based on highly integrated measurement system - Google Patents

Abstract

The invention discloses an automatic calibration control method based on a highly integrated measurement system, the measurement system integrates a calibration sample piece and a three-axis measuring head, a temperature sensor and a displacement sensor are arranged on the three-axis measuring head, real-time temperature signals and displacement measurement values acquired by the sensors are transmitted into the measurement system, various conditions generated by external interference are defined by an internal program of the measurement system, the temperature sensor acquires the real-time temperature signals, and the displacement sensor in the three-axis measuring head 3 acquires the three-axis measurement values of each workpiece. The measuring system adopted by the invention is independent of the PLC, has unique processing right for the acquired signal, and can perform more interaction with the PLC.

Description

Automatic calibration control method and device based on highly integrated measurement system

Technical Field

The invention belongs to the technical field of automatic gearbox control, and particularly relates to an automatic calibration control method and device based on a highly integrated measurement system.

Background

At present, most of equipment measurement principles are static measurement, the measured value is single, simple operation and judgment are carried out on the measured result, and the accuracy of the result only depends on basic means such as equipment periodic calibration, statistical analysis on the repeatedly measured result and the like. The measurement mode is that the sensor directly communicates with the PLC, and the principle of the measurement system is that acquired electric signals are sent to an industrial personal computer through a filter, data processing is carried out by an upper acquisition program to obtain measurement data information, and the measurement data information is transmitted to a PLC execution control system after the result is judged.

Therefore, the influence of external factors such as environmental changes, sensor failure, overdue uncalibrated and the like cannot be eliminated. In this way, the measurement value often generates measurement errors due to external interference (environment, equipment and personnel), and inestimable results are generated in the subsequent assembly process, so that defective products flow out, and the product quality cannot be guaranteed.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic calibration control method and device based on a highly integrated measurement system, overcoming the defects of the existing control method, realizing the adoption of a multi-condition parallel strategy after adopting the control method, and effectively ensuring the accuracy of the measurement result of the system.

In order to solve the technical problems, the technical scheme of the invention is as follows: an automatic calibration control method based on a highly integrated measurement system is characterized by comprising the following steps:

the measuring system monitors signals from the sensor, and when the temperature change exceeds 2 ℃, the measuring times on the day exceed 200 times, the difference of the measured values is greater than 0.5mm or the continuous working time is greater than 2 hours;

the measurement system judges that the equipment needs to be re-zeroed and provides an interrupt signal for triggering an automatic calibration program to the PLC;

and after receiving the interrupt request signal, the PLC controls the actuating mechanism to act to perform equipment zero calibration.

Further, pushing out the calibration sample piece, lifting the calibration sample piece by a lifting member, dropping a three-axis measuring head, starting to measure the calibration sample piece, repeatedly measuring for many times, subtracting a certificate value of a standard piece from a measured value to obtain a corrected value, correcting the zero position of the measuring machine, and finishing zero calibration of the equipment;

and after the return of the three-axis measuring head is finished, the lifting member falls down, the calibration sample is withdrawn, and the measurement of subsequent workpieces is started.

Based on the automatic calibration control method, the device for implementing the method comprises the following steps: calibrating a sample piece and a three-axis measuring head, wherein the three-axis measuring head is provided with a temperature sensor and a displacement sensor, real-time temperature signals and displacement measurement values acquired by the sensors are transmitted into a measuring system, and various conditions generated by external interference are defined by an internal program of the measuring system;

the temperature sensor collects real-time temperature signals, and the displacement sensor in the three-axis measuring head collects three-axis measured values of each workpiece.

By adopting the technical scheme, compared with the prior art, the invention has the following advantages: and a multi-condition parallel strategy is adopted for result judgment, so that the accuracy of the system measurement result is effectively ensured. The measuring system adopted by the invention is independent of the PLC, has unique processing right for the acquired signal, and can perform more interaction with the PLC.

Drawings

FIG. 1 is a flow chart of an automatic calibration control method based on a highly integrated measurement system according to an embodiment of the present invention.

Detailed Description

In order to more clearly understand the technical features, objects and effects of the present invention, the embodiments of the present invention will be described with reference to the accompanying drawings, and it will be understood by those skilled in the art that the following should not be construed as limiting the scope of the present invention.

In an embodiment, as shown in fig. 1, an automatic calibration control method based on a highly integrated measurement system includes:

the measuring system integrates a calibration sample 1 and a three-axis measuring head 3, a temperature sensor and a displacement sensor are arranged on the three-axis measuring head 3, real-time temperature signals and displacement measurement values acquired by the sensors are transmitted into the measuring system, and various conditions (such as room temperature change, continuous measurement value drifting, poor repeatability of multiple measurements of the same workpiece, large difference between the measurement value of a single displacement sensor and an average value, time interval and the like) caused by external interference are defined by an internal program of the measuring system.

The temperature sensor collects real-time temperature signals, and the displacement sensor in the three-axis measuring head 3 collects three-axis measured values of each workpiece.

The automatic calibration control method comprises the following steps:

the measuring system monitors signals from the sensor, when the temperature change exceeds 2 ℃, the measuring times on the day exceeds 200 times, the difference of the measured values is greater than 0.5mm or the continuous working time is greater than 2 hours and other triggering conditions are met, the measuring system judges that the equipment needs to be re-zeroed, and provides an interrupt signal for triggering an automatic calibration program for the PLC. After receiving the interrupt request signal, the PLC controls the action of the execution mechanism to push out the calibration sample piece 1, the lifting member 2 lifts up the calibration sample piece 1, the three-axis measuring head 3 falls down, the calibration sample piece 1 starts to be measured, the measurement is repeated for 3 times, the measured value subtracts the certificate value of the standard piece to obtain a corrected value, the zero position of the measuring machine is corrected, and the zero calibration of the equipment is completed;

after the return of the three-axis measuring head 3 is finished, the lifting member 2 falls down, the calibration sample 1 is retracted, and the measurement of subsequent workpieces is started.

The foregoing is illustrative of the best mode of the invention and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The scope of the present invention is defined by the appended claims, and any equivalent modifications based on the technical teaching of the present invention are also within the scope of the present invention.

Claims (3)

1. An automatic calibration control method based on a highly integrated measurement system is characterized by comprising the following steps:

the measuring system monitors signals from the sensor, and when the temperature change exceeds 2 ℃, the measuring times on the day exceed 200 times, the difference of the measured values is greater than 0.5mm or the continuous working time is greater than 2 hours;

the measurement system judges that the equipment needs to be re-zeroed and provides an interrupt signal for triggering an automatic calibration program to the PLC;

and after receiving the interrupt request signal, the PLC controls the actuating mechanism to act to perform equipment zero calibration.

2. The automatic calibration control method based on the highly integrated measurement system as claimed in claim 1, further comprising:

pushing out the calibration sample piece (1), lifting the calibration sample piece (1) by a lifting member (2), dropping a three-axis measuring head (3), starting to measure the calibration sample piece (1), repeatedly measuring for many times, subtracting a certificate value of a standard piece from a measured value to obtain a corrected value, correcting the zero position of a measuring machine, and finishing zero calibration of equipment;

after the return of the three-axis measuring head (3) is finished, the lifting member (2) falls down, the calibration sample piece (1) is retracted, and the measurement of subsequent workpieces is started.

3. The device for implementing the automatic calibration control method based on the highly integrated measurement system according to claim 1 is characterized by comprising the following steps:

the calibration method comprises the following steps of calibrating a sample piece (1) and a three-axis measuring head (3), wherein the three-axis measuring head (3) is provided with a temperature sensor and a displacement sensor, real-time temperature signals and displacement measurement values acquired by the sensors are transmitted into a measuring system, and various conditions generated by external interference are defined by an internal program of the measuring system;

the temperature sensor collects real-time temperature signals, and the displacement sensor in the three-axis measuring head (3) collects three-axis measured values of each workpiece.

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