SU449284A1 - Gas permeation measuring device - Google Patents

Description

The invention is CLEARED to an HMWR technology, namely, to devices for measuring the gas permeability of heterogeneous materials.

A known device for determining the permeability of gas permeability, containing a source of overpressure, made in the form of a pear and connected to the piping with chambers. differential meter Air from pressure sources through the pipelines is passed through two channels: through the test material and the adjustable valve. The air pressure in the chamber with the material depends on its gas flow, and the pressure in the chamber with the valve depends on the position of the valve. During the control process, the valve is set so that the pressure in the chambers is equalized. This corresponds to a zero pressure. Dafmayshvtra

However, such a device does not have a high-speed response, since during the monitoring process it is necessary to manually set the adjustable valve to the position corresponding to the zero reading of the differential pressure gauge. In addition, the use of a valve for manual pressure control does not exude a high accuracy of gas permeability,

In order to improve speed and accuracy of measurement in the proposed device, the source of overpressure is made in the form of a sidphone, one end of which is connected to the base, pressed to the sample and having a calibrated opening for blowing gas through the sample, and the other with movable electromagnet core and supporting bellows in extended position, with the bellows cavity communicated

A pipeline with an EO) transformer for measuring the change in pressure, made in the form of an overhead parametric sensor, with which the plate is rigidly connected to the membrane, which is open,

perceived pressure change in the bellows cavity,

In the drawing, a schematic image of the described device.

The device is made in the form of a cylinder I with a base in which there is a calibrated orifice 2. In the cylinder there is a bellows 3 and a return spring 4 with guides 5. At the top of the device there is an electromagnet 6,

The cavity of the sidaphone is connected by pipeline 7 with the cavity of the converter, consisting of a surface parametric sensor 8, a plate 9 connected to the membrane 10.

The device works as follows.

According to a program defined on the control unit (not shown in the drawing), the device is pressed against the base of the cylinder I to the sample of the test material. After that, the electromagnet 6 is turned on, which compresses the syphon 3. An overpressure is created in the inner cavity of the bellows, the value of which depends on the gas permeability. This pressure is adopted by the membrane 10, which moves the plate 9 located above the surface parametric sensor 8. The output signal of the sensor.

.; proportional to the gas permeability, enters the measuring (indicating or recording) device, calibrated in units of gas permeability, according to which at the time corresponding to the maximum value of this signal, a reading is made.

PRVDMVT INVENTIONS

Claims (2)

1, A device for measuring gas permeability, containing a source of overpressure, a flow distribution system, a recording device, calibrated in units of gas permeability, distinguished by the fact that, in order to improve speed and measurement accuracy, the source of overpressure is made in the form of a sidphone, one end of which is connected to the base, pressed to the sample and having a calibrated opening for blowing gas through the sample, and the other with a movable co-electromagnet and elastic means supporting the bellows in an extended position In this way, the bellows cavity is communicated by pipeline to the transducer cavity for measuring the pressure change. 2. A device according to claim I, characterized in that the transducer is designed as a patch parametric sensor, above which a plate is placed rigidly connected to a membrane that receives pressure in the cavity of the bellows.