SU1198449A1 - Pneumatic device for indicating pressure - Google Patents

Description

The invention relates to pneumatic automation and can be used to signal changes in pressure, for example, when testing for tightness chamber method.

The purpose of the invention is to increase the sensitivity and reliability of the device.

The drawing shows a diagram of the device.

A pneumatic pressure alarm device consists of a housing 1 in which a nozzle membrane 2 with a central hole 3 and a sensing membrane 4 are installed. The inlet 5 is connected to an inlet deaf chamber 6. A power nozzle 7 connected through a throttle 8 with a feed 9 , is made with an annular shoulder 10, on which the nozzle membrane 2 is supported. The fitting 7 is mounted in the housing 1 for movement in the axial direction. On the outer side of the flange 10 in the end face 11 of the output chamber 12 is located, a hole 13 connected to the input of the jet logic element 14, to the output of which the pressure indicator 15 is connected. An annular flange 10 and a central part of the nozzle membrane 2 define a cavity 16. A pressure setting device 17 can be installed in the supply channel 9. The inlet chamber 6 is connected to the cavity of the test chamber 18, in which the test piece 19 is placed. The sealing of the supply nipple 7 is performed by means of a sealing ring 20, the nipple 3 is fixed by a nut 21.

The device works as follows.

If the product 19 is sealed, the pressure in the chambers 18 and 6 does not change.

The air entering through the nozzle 7 into the cavity 16, through the central opening 3 in the nozzle membrane 2 is released into the atmosphere, while the pressure does not enter the indium 15, its output signal is zero. If the tightness of the product 19 is impaired, the pressure in the chambers 18 and 6 increases, the sensitive membrane 4 begins to deform, increasing the resistance to the outflow of air through the opening 3 and, accordingly, the pressure in the cavity 16. At the same time, the nozzle membrane 2 is deformed in the direction of the sensitive membrane 4 , which leads to the formation of a gap between the nozzle membrane 2 and the annular collar 10, through which pressure is released in chamber 12 and channel 13.

20 resulting in a stream of air in the jet logic element switches to another output and the indicator 15 is triggered, indicating that a controlled pressure has reached

25 camera 6 set value.

The release of pressure in the cavity 16 allows to avoid overvoltages of the nozzle membrane 2 and thereby increase the reliability and accuracy of the device.

30 In addition, the pressure relief allows, firstly, to receive a signal varying from zero, convenient for controlling the jet logic element, secondly, to reduce the supply pressure,

^ 5 supplied to the nozzle 7, and thereby reduce the force pressure of the jet on the sensitive membrane.

*

The ability to move the nozzle

40 9 in the axial direction allows adjustment of the sensitivity of the device as a result of elastic changes. properties of the nozzle membrane 2.

1198449

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Pete-

Claims (2)

PNEUMATIC DEVICE FOR PRESSURE SIGNALS, comprising a housing in which a nozzle membrane with a central orifice and a sensing membrane, an inlet, a channel connected to the inlet blind chamber, a power fitting are installed, connected through a choke with a power channel, and a logical element, the input of which is connected to the output chamber communicated through the central hole. in the nozzle membrane and the intermembrane chamber with the atmosphere, and the output of the jet element is connected to a pressure indicator, which is e with I, so that, in order to increase the sensitivity and reliability of the device, an annular collar is made on the power supply nozzle mounted for movement in the axial direction, on which the nozzle membrane rests, and on the outer side the collar and at the end of the exit chamber there is a hole connected ; with the input of the jet logic element. §Υ.α »П 98449 > 1198449 2 one