SU1019227A1 - Material width measuring device - Google Patents

Description

The invention relates to measuring equipment, namely to devices for automatic control of the width of the material.

A device for measuring the width of the material, containing a line of photocells, illuminators _and a signal processing circuit of the photosensors [1].

The disadvantages of the device are limited scope and lack of accuracy.

Closest to the invention is a device for measuring the width of the material, comprising a carriage, two position sensors of the edges of the material, one of which is mounted on the carriage, the carriage drive and the signal processing unit of the sensors C2].

The disadvantage of this device is the low measurement accuracy with large deviations of the width from the nominal value.

The chain of invention is to increase the accuracy of measurement.

The intended use is achieved by the fact that the device is equipped with a second carriage mounted on the first carriage with the possibility of reciprocating movement relative to it and a code converter relative to the movement of the carriages, and another sensor of the position of the edge of the material is placed on the second carriage.

The drawing shows a block diagram of the proposed device.

The device comprises a carriage 1, sensors 2 and 3 of the edges of the material, a carriage drive including a motor 4, gear 5 and a reversing amplifier 6, a second carriage 7, a second carriage drive including a motor 8, gear 9 and a reversing amplifier 10, a relative code converter 11 the movement of the carriages I and 7, including a code line 12, and a reading system consisting of a illuminator 13, a condenser 14, a slit diaphragm 15, a line of 16 photocells and a reference

9227 2 of the block 17. The carriage 1 is moved relative to the fixed bed 18. The dead zone of the sensor 2 is selected smaller than the dead zone of the sensor 3. On the code line 12. discrete values of the distance between the sensors 2 and 3 are plotted in the form of code combinations. Code line 12 is hard mechanically connected 10 with the carriage 7, with the carriage 1 the reading system is rigidly mechanically connected with the number of reading elements according to the number of combinations of the code line 12.

The device operates as follows.

With a constant material width and moving it in the transverse direction relative to the transporting direction, the material edge position sensor 2 is triggered due to the smaller dead zone and the carriage 1 is moved relative to the bed 18 by means of engine k and gear 5; however, there is no relative movement of sensors 2 and 3 and, accordingly, carriages 1 and 7 with a linear code 12 and a reading system fixed to them. The output of the device remains unchanged code combination corresponding to a constant width of the material.

When changing the width of the material, in addition to the sensor 2, the sensor 3 is activated and the carriage 7 moves relative to the carriage 1 and, accordingly, the code line 12 relative to the reading system to a new code combination corresponding to the new value of the material width.

Thus, despite the transverse movement of the material, if its width remains unchanged, there are no dynamic changes in the width indications at the output of the device.

The proposed device in comparison with the known allows measurements in any range of width changes with high accuracy.

Claims (1)

DEVICE FOR MEASURING THE WIDTH OF THE MATERIAL, comprising a carriage, two sensors for positioning the edges of the material, one of which is mounted on the carriage, a carriage drive and a sensor signal processing unit, about t-. I have the fact that, in order to increase accuracy, it is equipped with a second carriage mounted on the first carriage with the possibility of reciprocating movement relative to it and a code converter for relative movement of the carriages, and another material edge sensor is placed on the second carriage. _M SU „1019227 1 101