PL54531B1 - - Google Patents

Description

Priority: Published: 12.IV.1968 54531 KI. 42 b, 26/03 MKP G 01 b UKD Inventors: mgr inz ;. Feliks Chmielewski, Stefan Paniewski. Patent owner: Warszawski Zaklad Mechaniczny Nr 2 Przedsiebiorstwo Panstwowe, Warsaw (Poland) Pneumatic sensor i Invention concerns a pneumatic measuring sensor, adapted to precise measurements of length and angle of various machine elements.

Pneumatic sensors are widely used because of their high accuracy and design.

Pneumatic pressure sensors make use of the relationship between the pressure of the air flowing through the pneumatic circuit of the device and the size of the gap formed between the measuring head and the measured roller, hole or alemantean.

Known pneumatic systems are made in a simple and differential configuration.

The differential measuring system is insensitive to the change of the measuring pressure and gives the possibility of measuring with the aid of (one sensor at a time, for example, a roller bore during machining, the method of joint grinding, in order to obtain the correct clearance between the bore 20 and the mating struggle or the determination of inequality or conicity of the controlled elements.

In sensors based on a differential circuit, a simple dial gauge is used, which, coupled to an elastic element, acts as an indicator. For the purposes of light signaling, known pneumatic sensors use a contact system that allows for a quick evaluation of the quality, which can also be used for the selection of the tested elements.

Hitherto known pneumatic sensors built in a differential system have the disadvantage that when replacing the measuring head, for example, due to its wear or due to the fact that the sensor is used for another measurement, it is also necessary to replace the inlet nozzle, in order to obtain the required measuring ratio, (or the need to re-calibrate.

The object of the invention is to develop a sensor solution which, while maintaining the most important advantages of high-pressure pneumatic sensors, would have the possibility of a continuous adjustment of the measuring ratio.

The presented task has been solved by the use of a known indicator in the sensor having several different measuring ranges and an additional adjustable inlet nozzle placed in the measuring branch of the differential circuit, instead of a replaceable inlet nozzle.

Having an indicator with several measuring ranges available, it is easy to define a suitable measuring range as well as a measuring ratio corresponding to the actual dimensions of the measuring nozzles by means of an adjustable inlet nozzle. 545313 The invention is explained in more detail on the basis of an exemplary embodiment shown schematically in the drawing.

Compressed air with a measuring pressure of, for example, H = 1.5 [mu] g / m <2> is led through the nozzles of the steel 1 into one chamber of the bellows assembly 5 and through the nozzles 10 regulated into its other chamber. The outflow of air to the atmosphere is regulated by a throttling valve 14 which serves to set the sensor to zero. An additional adjustable inlet nozzle 10 and two patterns with a given dimensional difference (not shown in the figure) serve to set the desired measuring ratio.

The knob of the -adjustable nozzle 10 is turned until the difference indicated is equal to the difference in dimensions of the gauge rings. By means of the knob of the throttle valve 14 the pointers are brought to the position corresponding to the dimension of the gauge ring. The set of bellows 5 is connected between each other by a pull 4 and a lever 2 with an indicator 3. The indicator 3 is built on the basis of a known dial gauge with a division value of 0.01 mm with an added dial on which a scale with different measuring ranges has been applied .

The bellows bending is caused by the difference between the pressure applied by the throttle valve 14 and the variable pressure caused by the change in the air gap between the measured workpiece 13 and the measuring head 12. The movement of the elastic bellows 5 takes place within one turn of the sensor 5 This makes it possible to ignore the increase in pressure coming from the sensor spring. The bellows assembly 5 is mounted on flat springs 6. Adjustable end stops 7 attached to the base 8 are used as contacts. The light signaling of the solution is based on the known bell transistor 11 and dips 9. 15 Pneumatic sensor for length and angle measurement, in which a pneumatic differential system is used, coupled with a dial gauge transducer meidhainism characterized by that it is provided with a known indicator having a scale with different measuring ranges and an additional adjustable inlet nozzle, placed at the inlet to the measuring tube of a differential pneumatic system, for adjusting the measuring ratio of the sensor to the measuring range and measuring head .KI. 42 b, 26/03 54531 MKP G 01 b lilies H = 1.5 KG / cm