SU376656A1 - NON-CONTACT MEASURING THRESHOLD THICKNESS - Google Patents

Description

one

The invention relates to devices for contactless automatic measurement of the thickness of sheet glass, for example, during a vertical drawing process, and can be used to measure the thickness of any transparent materials.

The known contactless sheet glass thickness gauge contains a multifaceted rotating mirror that directs the flow of light to the controlled glass, photoelectric converters installed in the light flow passing through the glass, and an electronic signal recorder connected by inputs to photoelectric converters.

In the known meter, the synchronization of the operation of the circuit is produced by an electromechanical start-stop sensor associated with a rotating mirror. The sensor, when reducing the measured thickness, introduces a significant error in the phase of the recorded signals.

In order to improve the measurement accuracy in the proposed meter, two photoelectric converters are installed at a predetermined distance from one another and are located along the glass surface, and the electronic signal recorder is designed as a recorder of the time interval between

photoelectric converter signals.

The drawing shows a schematic of the proposed meter.

It consists of a source / light, a light beam scanning unit 2, for example, a mirror drum 3 mounted on an electric motor shaft 4, an optical system 5 mounted on one side of a glass ribbon 6, and photodetectors 7 and 5 mounted on the other side of a glass ribbon. The photodetectors are connected to a digital recorder 9 time interval, which consists of a highly stable generator of 10 pulses,

a digital counter 11 pulses, a scale converter 12 and a reading board 13.

The device works as follows. The light beam from the light source 1 hits the mirror drum 3. When the drum rotates at a certain angle, the light beam performs one oscillation in the focal plane of the optical system, o. The motor 4, rotating the mirror drum 3, causes

beam of light continuously scan. A scanning beam of light, refracted in glass 6, alternately hits photoreceivers 7 and 8. The voltage pulses that occur on photodetectors then go to digital recorder 9, which determines the time interval between pulses. With a constant scanning frequency and refractive index of the glass, the time interval between the signals of the photodetectors depends on the thickness of the glass.

The time interval in the digital recorder is measured by counting the pulses of a highly stable generator 10, which is triggered by a voltage pulse from the photodetector 7, and disconnected by a pulse from the photodetector 8. Digital counter 11 counts the number of pulses of the generator 10 and, after the counting ends, through the large-scale converter 12 outputs a signal on the reading board 13, which displays the measurement result directly in units of thickness.

Subject invention

A contactless sheet glass thickness gauge containing a multifaceted rotating mirror that guides the flow of light on the controlled glass, photoelectric converters installed in the light passing through the glass, and an electronic signal recorder connected by inputs to photoelectric converters, characterized in that increase the accuracy of measurement, two photoelectric converters are installed at a given distance from one another and are located along the surface of the glass, and ronny signal recorder is designed as a time interval between the signals registrar photoelectric converters.

W g / A

.

S