SU356455A1 - PNEUMATIC DEVICE FOR TWO-LIMIT CONTROL OF LINEAR DIMENSIONS - Google Patents

Description

From the introduction to the area of measuring the linear dimensions and can be used iB control automat for screening finished parts.

Pneumatic devices are known for two-sided cantrol lniey times. A ditch containing a measuring branch,; A removal branch and a differential pressure gauge with an elastic sensing element, thick. From the chambers of which is connected to the measuring branch.

TaiKoe device is configured so that the formation of output signals corresponding to the limit values is controlled. of its size, it occurs in two extreme positions of ChuVST1Vittel “01GO manometrp element, that is, inequality in 1 in the oppression pressure and in the measuring branch.

It is also known that in differential Liemaggy devices, the potential for instability of the supply pressure will be minimal in the case when the form of the output signal of the output signal occurs if the pressure in the body branch and the counterpressure branch are equal, i.e.

The proposed device differs from the well-known fact that it is equipped with a second branch of anti-pivot, with an offset: offset; in the measuring branch, with the second chamber of the body element gauge.

Such an embodiment of the device makes it possible to reduce the error of control due to the instability of the supply pressure.

This is explained by the following text.

five

When setting up the device in the branches of the counterpressure, pressures are set equal to, respectively, the pressures in the measuring branch with the minimum and maximum dimensions of the part. Using the means of adjusting the repeaters, in their output chambers, the pressures necessary for triggering the pressure gauge at selected positions of its sensing element are set.

5 Thus, when measuring the pressure of the supply, the pressure in both chambers of the sensing element of the manometer (in its adjusted positions) will change by the same amount, although these pressures are not equal.

In the drawing., A schematic diagram of the proposed uspcive is represented.

The device contains a filter 1 for cleaning compressed air supplied from the mains, a stabilizer 2, a measuring branch consisting of the inlet 3 descended and the meter of the vent 4, two opposing branches, one of which consists of the inlet 5 depressing 5 and the back pressure nozzle 6, the second - from the inlet section 7 and the nozzle 8 of the counterpressure, the differential controller 9 with the ear ring. The element (shown in the drawing “e”), the chamber of which is connected by the air line 10 with the measuring branch, 1.1 and 12 seconds log off with 13 and M and switch Spruce 15 with inlet nozzle 16 and adjustable nozzle 17.

Repeater // entrance chamber A is connected to a backpressure branch composed of 5 and 5, while entrance A of repeater 12 is connected to the second counterpressure branch composed of 7 t nozzles 8. Exit camera B follower 11 through switch B / 5 communicates with the second chamber of the sensing element of the manometer 5, and the output chamber B of the repeater / 2 communicates 1 with the same chamber of the Manometer 9 through the switch T of the switch 15. The working chamber D of the per-switch is communicated with the measuring line through the air duct 18.

The device works as follows.

Compressed air from the network, having passed the filter 1 and stabilizer 2, is directed along six lines: through the inlet nozzles 5 and 7 to the chambers A of the lil repeaters and to the backpressure nozzles 6 and 8; through the inlet nozzles 13 and 14 .8 of the camera B of the repeaters and through the nozzles 19 into the chambers C and D of the switch 15 and further to the - manometer 9; through the input coil 3 "measuring nozzle 4, the pressure gauge P and into the chamber D of the switch; through the inlet.e nozzle J6 to. Adjustable saplu 17 and into the chamber E of the switch 16.

The pressures in chambers A of repeaters // and 12 are specified by nozzles 5 and 5 of counterpressure so that they are equal respectively to the pressures and m in the measuring branch with adjusting displacements of gap S corresponding to the limiting values of a controlled size: pressure in chamber A /, / is equal to the lowest measuring pressure, and in chamber A, the repeater 12 is equal to the lowest measuring pressure.

Yes / the repetition of repeaters in the Carama B is set by screws 20 in such a way that it ensures the installation of the choosenal of the element of the pressure gauge 9 in the required positions.

The pressure in chamber E of switch 15 is set by means of a nozzle 17 so that

it is about the average measuring pressure.

In the absence of a part at the measurement position, the pressure in the measuring branch and in chamber D is zero, as a result of which the mem | block of the switch 15 is in the lower position and the membrane 21 closes the nozzle 22.

When ycTaHOtBiKe parts on the measurement position, the pressure in the measuring branch and in the chamber D rises. If the size is such that the measuring pressure does not reach the average value, then the compressed air enters the second chamber of the manometer 9 from the repeater through the nozzle 23 and chamber B. If the size is TBiKoiB and the measuring pressure exceeds the average value, then the membrane / the switch unit 15 will move to the upper position, and the membrane 24 will close the nozzle 23 by disconnecting the pressure gauge 9 from the repeater 11 and connecting it through the nozzle 22 and chamber G to the repeater. 12.

Thus, any change in pressure in 1ka .-. Measures A of repeaters 1-1 and 12 causes the same pressure change in chambers B. Since the pressures in chambers A are set equal respectively to the pressure in the measuring branch when -.min.malnogo and maximum dimensions of the part, then when the working pressure in both chambers of the sensing element of the manomer changes, the same value (in the range of the frequency of the repeater operation), i.e. pressure will be much smaller. It will be determined by the so-called work of repeaters} 1 and 12.

Subject and s about (b-r e t le n and

A pneumatic device for two-limiting linear dimension control, containing a measuring branch, a counter-branch and a differential pressure gauge with an elastic sensing element, one chamber of which is connected to a measuring branch, distinguished by the fact that, for the purpose, a magnetic tube is connected. - control due to unstable power supply pressure, it is provided with a second branch against pressure, two repeaters with an offset, the camera of each of which is connected to one of the branches of the intake pressure, and a switch connected by The output meters of the repeaters are alternately, depending on the pressure in the measuring branch, with the second chamber of the sensitive element of the manometer.