SU373589A1 - ELECTRO-SPIRIT GAS DENSITY INDICATOR - Google Patents

Description

one

The invention relates to the field of measuring the density of gases in fast-flowing gas processes, for example, in internal combustion engines.

An electric spark indicator of gas density, containing a sensor made in the form of a ball-gap with a constant spark gap, is known in a high-voltage circuit along with a sensor connected to a test spark with a variable spark gap, the movable electrode of which is kinematically connected with a recording needle.

In order to improve the accuracy of measurements, a test gage is placed in a pneumocamera equipped with a piston connected to a recording device, and the pulse winding of a control discharge is connected to a thyratron converter connected to a needle of a recording device.

The drawing shows a diagram of the proposed device.

The indicator contains a high voltage generator / pulses, a sensor 2, a test glitter 3, a pvemosystem 4, a recording device 5. A sensor 2 and a control glitter 3 are connected to the secondary circuit of a high voltage generator / pulse in parallel (made in the form of ball gaps with constant spark gap and have identical design and dimensions). Sensor 2 is placed in the medium of the test gas, for example, in the cylinder head of the test engine of the pneumatic system 4, and the test discharge 3 is located in a special pneumatic chamber of the recording device 5, IB which compresses air or another gas of known composition. A pneumatic system consists of a compressed air cylinder b, air ducts, a pneumatic chamber and a cylinder 7, valves for pressure control, as well as a precision manometer 8 and a thermometer 9 for measuring the pressure and air temperature in the chamber. The recording device contains a piston 10 with a calibrated spring and a recording needle /), a drum 12 rotating in a synchronously investigated process, a winding 13 for

receiving the signal during the breakdown of the spark gap of the control glitch, the thyratron converter 14 and the resistance 15. The principle of the indicators is described below.

After the engine warms up and the mode under study is turned on, the generator / high voltage pulses are turned on and the high voltage current pulses are sent to the spark gaps of sensor 2 and test spark 3. This opens the valve of cylinder 6 and the pressure in the pneumatic chamber of the recording device 5 and the cylinder 7 gradually increases . This causes movement of the pore 10 until the gas pressure is balanced by the pressure of the calibrated spring.

Thus, the piston 10 and the needle // associated with it at a given current pressure value in the pneumatic chamber, takes a strictly defined position relative to the drum 12, on the surface of which the indicator paper is wound.

The recording of the density indicator diagram is carried out on the basis of a comparison of the value of br (the product of the length of the spark gap and the density) in the sensor and the test digit. When the value of this value in the sensor is larger than in the test discharge, the breakdown occurs in the IB test discharge, and vice versa, when the magnitude of the capacitance between the electrodes of the test discharge becomes steadier than in the spark gap of the sensor, the discharge will occur between the electrodes of the sensor .

The spark discharge in the test discharge causes the appearance of a signal pulse in the winding 13, which in the thyratron converter 14 is converted into a high-voltage pulse, discharged in the form of a spark from the discharge needle pin // onto the drum surface. 5 For a sufficient number of cycles on the indicator paper, a blackened strip is formed, delineated by a line, which in a certain scale is a curve of change of breakdown voltage, 0 or a unfolded density diagram.

Subject invention

The electric-spark density indicator for a gas, containing a sensor made in the form of a ball-type gage, a control gage included in the secondary circuit of a high-voltage pulse generator in parallel with the sensor, a recording device, characterized in that, in order to improve the accuracy of measurements, The drift is placed in a pneumocamera equipped with a piston connected to a recording device, and the pulse winding of the control discharger is connected to a thyratron converter connected to the needle p register device.

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