SU301522A1 - PNEUMATIC METHOD FOR MEASURING SMALL HOLEVERSIONS - Google Patents

Description

The invention relates to the field of measurement technology and can be used in the automotive industry, aviation, time and other sectors of the industry, where parts with small holes (less than 0.5 mm) are manufactured, for example automotive carburetor jets, nozzles, dies, orifices through time stones, etc.

A pneumatic method for measuring small orifices is known, which consists in measuring the flow rate of air through a controlled orifice with a constant pressure differential at the inlet and outlet of the orifice created by the stabilizer. Air consumption is measured using flow meters.

However, the known method does not provide high precision control. This is due to the fact that existing instruments do not measure extremely small cost variations. This is especially apparent when inspecting very small holes in the order of 0.05-0.1 mm.

In addition, a known method is difficult to automate due to the fact that the output pneumatic signal is very small.

Versions are created using an ejector with a fan-shaped jet and the size of the hole is judged by the presence or absence of pressure fluctuations in the working chamber of the ejector.

The high accuracy of the control according to the proposed method is ensured by the fact that it uses the physical phenomenon of separation of the fan-shaped jet from the streamlined wall, which occurs with high stability. The pressure fluctuation in the working chamber of the ejector occurs by a considerable amount, which makes it possible to automate the control without additional amplification of the output signal.

The proposed method is illustrated in the drawing.

The ejector / comprises a sonlo 2 with a flat end 3, a flat flap 4 and a working chamber 5 communicating with the nozzle through a gap L between the end of the nozzle and the flap.

The working chamber is connected by an air line 6 to the channel 7 of the device 8 for mounting the part 9 to the control position. Due to the presence of gasket 10, controlled

The detail hole 11 communicates with the working chamber of the ejector. A relay chamber 12 is also associated with the working chamber, fixing the moment of occurrence of air pressure oscillations in it, which occur in the case of a counterhole, which has been made to establish an ejector.

Adjustment of the ejector consists in finding such a mode of flow of air in the space between the end of the nozzle and the flap, at which the jet breaks off from the flap and sticks to the end, which causes pressure fluctuations in the working chamber.

To control the size of the orifice, the ejector must be properly tuned, or a second ejector must be installed parallel to the first one.

SO 1522

 Subject invention

A pneumatic method for measuring small holes, which consists in creating a constant pressure differential at the inlet and outlet of the controlled hole, characterized in that, in order to increase the accuracy of control and automation of it, the pressure drop is created using an ejector with a fan-shaped jet and the size of the hole is measured by the presence or absence of pressure fluctuations in the working chamber of the ejector.

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