SU659898A1 - Contact-free linear dimension-to-pneumatic signal transducer - Google Patents

Description

one

The invention relates to instrument engineering and can be used to control linear dimensions by means of pneumatics.

A non-contact linear transducer into a pneumatic signal is known, which contains a nozzle made in the form of a pneumatic cylinder piston, the cavity of which is divided by a piston into two chambers (measuring and counterpressures), and the nozzle is connected to a power source.

This device is designed for coarse measurements and has low sensitivity due to the friction of the piston against the cylinder wall.

A non-contact linear transducer into a pneumatic signal is also known. It contains a nozzle suspended on two membranes and a measuring chamber formed by the membranes and connected to a source of operating pressure through a choke. The nozzle is connected to the measuring chamber by means of amplifiers. The converter has no components for adjusting the gear ratio.

The accuracy of this converter is high. However, its adjustment range is narrow.

The purpose of the invention is to expand the range of adjustment.

This is achieved by the fact that, in the proposed converter, the nozzle is connected by a through channel to the measuring chamber and is provided with an adjustable spring which acts along the axis of the nozzle.

The drawing shows a schematic diagram of the proposed Converter.

Contactless transducer contains nozzle 1, which is suspended from the housing

2 on two identical membranes 3. A cavity formed inside the membranes is connected to a stabilized power source Pm1t through a choke 4. The nozzle is connected to the cavity through a channel 5,

the measuring chamber 6 between the membranes. The nozzle 1 is axially loaded with a spring 7, the force of which can be adjusted by a screw 8. Through the latter, the nozzle is displaced along its axis, changing

thereby the effective membrane area and, consequently, the magnitude of the gear ratio of the converter. The converter is installed so that a gap is formed between its nozzle 1 and the test piece 9.

The Converter operates as follows.

When resizing the part 9 compared to the size of the adjusting measure

the gap between the nozzle and the part varies,

which causes a proportional change in pressure in the measuring chamber 6. This pressure is OUT recorded by a secondary device (not shown).

If it is necessary to switch to a different measurement range and change the gear ratio of the converter, it is necessary to change, by means of the screw 8, compressing the spring 7, the axial load on the nozzle 1, which compensates the force arising in the measuring chamber 6 from the pressure PERSON due to the change in the effective area of the membranes 3, caused by a change in their curvature.

This design transducer simplifies its reconfiguration,

when required to control parts of various sizes.

Claims (1)

Invention Formula A non-contact linear transducer into a pneumatic signal containing a nozzle illuminated on two membranes and a measuring chamber formed by membranes and connected to a source of operating pressure through a throttle, characterized in that, in order to expand the adjustment range, the nozzle is connected through the channel to the measuring chamber and provided with adjustable spring acting along the axis of the nozzle. Pete