SU365557A1 - DEVICE FOR MEASURING THE TRANSVERSE SECTION OF DETAIL HOLES - Google Patents

Description

one

The invention relates to the field of measuring the effective area of the flow areas of the holes of a sluggish diameter to determine their flow characteristics, namely the flow section of the nozzles, g-glasses, etc.

A device is known for measuring the cross section of the holes of parts but auth. St. K ° 264: 37 i.

However, its accuracy depends on the parameters of the external environment, it cannot be measured at a given pressure drop a, the range of tested cross sections is

NARROW.

In order to increase the accuracy and expansion of the Dianazone measurement, the device is equipped with an additional sensitive element with a tube of larger diameter, both sensory elements at the inlet and at the outlet are connected to the corresponding, hermetically sealed tanks, which are interconnected by a regulator supporting the specified fire pressure in the tanks.

The drawing shows a diagram of the described device.

The device contains a sensing element in the form of transparent tubes 1 and 2 with pistons 3 and 4 moving in them, photoelectric sensors 5 and 6, and an electronic chronometer 7. At the exit of tubes 1 and 2 of the sensing element, there is a sealing element S for mounting the part to be tested 9.

The tubes / and 2 are connected by vents 10, 11, and 12 to inlet 13 and outlet 14 tanks. The output of the sensing element with a seal and a controlled part is hermetically enclosed in an output tank M. Between the tanks 13 and M, a pressure regulator 15 is installed.

The device works as follows. To the top of the tubes of the sensing element through the seal 8 is attached tightly controlled item 9. When turning the valve 16, the inlet pressure enters the tank 13 and then turning the valve 12 into the sensitive elements 1, 2 and tube / 7. Then, turning 18 turns on the regulator 15. After obtaining the specified pressure ratio in the tanks, turning the valve equalizes the pressure in the tubes and 7 and 2 and tube 17. Depending on the cross-section of the controlled opening, valve 10 or 11 is turned on and the hard piston is lowered by its own weight down the tube to the gas flow meter. By closing the valve, the device switches on the gas flow measurement through the controlled opening. The liquid piston 3 (or 4} under overpressure moves equally upward along the sensitive element 1 (or 2), and, passing by the photoelectric sensor o, includes an electronic clock 7. Dvnga up tube / (or 2, piston 3 (or 4 ), the passage past the photoelectric sensor 6, turns off the electronic chronometer 7. The time recorded by the electronic chronometer depends on the rate at which the lime gas contained in the tube 1 or 2 and the gap between the photoelectric sensors 5 and 6 passes through the controlled opening.

When the pressure in the reservoir 13 changes, the device makes it possible to measure the flow rates of gas through the controlled orifices at various pressure drops before and after the controlled orifice.

| 1 ed, em and 3 o r ete n i

A device for measuring the cross section of the holes of parts according to ed. St. L 274371, characterized in that, in order to increase the accuracy and expansion of the measurement diaiazo, the device is an additional sensitive element with a tube of larger diameter, both of which are sensitive elements and input i; OUTPUTS are connected to the corresponding hermetic tanks, which are interconnected by a regulator that maintains a positive pressure ratio in the tanks.