SU144608A1 - Photodynamic contactless device for measuring the length of hot roll - Google Patents

Description

Photodynamic contactless devices for measuring the length of hot rolling stock in the rolling field of rolling mills of metallurgical plants are known, which include an electron-optical system, a photo sensor, radio blocks for data processing, and a large-scale disk. However, such devices do not provide accurate measurements of roll.

In the described device for increasing the accuracy of measurement, the scale marks on the disk are spaced apart at angular slots corresponding to the angles of visibility from the center of rotation of the linear dimensions of the roll of unit length. To suppress interference from neighboring rolls, the device has a special trigger block that forms a falling edge proportional to the length of the roll.

FIG. 1 shows a block diagram of the device; in fig. 2 - installation diagram of a photo sensor with a large-scale disk.

A photodynamic contactless device for measuring the length of a hot roll consists of a rotating photo sensor 1, a mass disk 2 rigidly attached to the photo sensor and rotating with it, a photo cell 3, amplifying blocks 4, 5 and 6, a trigger block 7, a coincidence block 8 and a recalculating radio block 9 for processing the received data.

When a hot roll 10 arrives, the detector //, for example, a photo relay, a limit switch, etc., gives a pulse, and the photo sensor) with disk 2 begins to rotate. The optical axis of the photo sensor is thus moved along the stream in which roll 10 is located, so that a pulsed rectangular voltage is removed from the output of the photo sensor, the duration of which corresponds to the length of roll 10.

No. 144608-2. The effect of infrared radiation emitted by a heated rolling field when there is no roll is excluded from the selection of a sensor / with a corresponding spectral characteristic. Scale pulses, which are used to determine the length of the roll 10 by the magnitude of the rectangular pulse, are produced when light from source 12 passes through slits 13 on disk 2, marked up with the elimination of the error caused by parallax. The luminous flux interrupted by the opaque portions 14 of the disk 2 located between slots 13, falling on the photocell 3, gives a series of pulses taken from its load. The scale disk 2 is positioned relative to the photo sensor 1 so that at the moment when the optical axis is directed to the middle of one of the single length segments of the roll 10, the light passes from the source 12 to the photocell 3 through the slot number 13.

The voltage corresponding to the length of the roll 10 is amplified and differentiated in block 4, after which it is fed to the coincidence circuit 8. If during the measurement in the field of view of the photosensor / there are several rolls 10, then the voltage drop at the output of the sensor is captured due to the negative differential light flux. This voltage differential after amplification in block 5 serves as a starting pulse, triggering a trigger block 7, which forms the falling edge of the pulse proportional to the length of the roll being measured 10. Massive pulses also after amplification in block 6 arrive at coincidence circuit 8, from which a length pulse with large-scale pulses superimposed on it is fed to the radio block 9 for conversion, for example, to digital measurement results. If roll 10 has a considerable length, then it is measured not in its entirety, but in a part exceeding a certain constant region. In this case, the summation of the measurement results with the value of this area is also performed in the radio block 9.

The described device makes it possible to automate the measurement of the length of a hot roll, to permit various tasks, if available, on computing electronic computers, and, in addition, to increase the general culture of metallurgical production.

Subject invention

Claims (2)

1.Photodynamic contactless device for measuring the length of hot rolling on the rolling field of rolling mills, metallurgical plants, containing an electron-optical system, a photo sensor, radio blocks for processing the received data and a large-scale disk, characterized in that, to increase the accuracy of measurement, scale marks the disk is spaced apart at angular distances x corresponding to the angles of sight from the center of rotation of the linear dimensions of the roll of unit length. 2. The device according to claim 1, characterized in that, in order to suppress interference from neighboring rolls, it is provided with a special trigger block that forms the falling edge of the pulse proportional to the length of the roll.