SU834523A2 - Control jet hot-wire anemometer - Google Patents

Description

(54) CONTROLLABLE INJECTION THERMO-ANEMONTM

Claims (2)

The invention relates to measurement technology and acoustics and can be used as a highly sensitive infra-low thermistor microphone in various acoustics areas. According to the main author. St. No. 5373О1 is a well-known controlled jet thermoane-meter, which allows for a distinct recording of small gas pressure drops in closed volumes. The thermoanemometer is made in the form of a hollow body with a daum branch pipes, which are tightly connected to the vibrator and the object under study. Inside the housing there is a thermal converter located opposite the opening of the throttle located on the housing. The jet arising on the throttle is sensitive to the pressure applied to the second port of the housing. At the same time, quantitative changes in the jet velocity depend on the pressure arising in the test, and are recorded by the thermal sensor l. However, such a device does not register external micro-differences in sound pressure levels. The purpose of the invention is to expand the functionality of a known thermal anemometer by obtaining the possibility of its use as a thermistor microphone. The goal is achieved by additionally introducing a resonator chamber, hermetically connected to the choke and a horn connected to the case of the thermal sensor. The drawing shows the structural diagram of the device. The device comprises a sensor body 1, a thermoconverter 2, preophasing. pneumatic jet signal into electric, choke 3, designed to form a gas jet blowing thermal converter 2 and 5 tl $ 1 sensing element of the sensor, resonator chamber 4, capacitance simultaneously deflecting the gas jet generated by the choke from external acoustic and non-acoustic noise, vibrator 5 creating oscillations of gas (air) in the cavity of sensor housing 1, which are converted into a jet by an inductor 3, regulator 6 of the amplitude of the vibrator 5, pipe 7, through which oscillations of gas (air) are transmitted, ozdavaemye VIB {atfom 5, the current-carrying conductor 8, D nozzle body to which the sound pressure is brought receiver (mouthpiece) 10. The apparatus operates as follows. The vibrator 5 creates inside the housing 1 variable oscillations of the gas (air), which lead to the formation of a jet on the choke 3. The initial velocity of the jet is set by the amplitude control 6, the velocity of the jet, vl5 Feel good; -. The sensor element recorded with thermocouple 2. The external microperettes of sound pressure levels picked up by the sound pressure receiver U are transmitted through pipe 9 into the cavity of housing I. This leads to a change in pressure in the cavity of the hot-wire anemometer and, accordingly, to a change in the initial velocity of the jet at the throttle 3. The change in the velocity of the jet from the throttles 3 is recorded by the magnitude of the signal on the thermal converter. 2. The presence of the resonator chamber 4, in which the choke 3 is placed, provides acoustic filtering and at the same time limits the undesirable effect on the throttle 3 of the gas (air) stream of your unwanted air flow and acoustic noise. Formula of the invention The controlled jet thermoanemometer according to the author. St. N 537301, distinguished by and with the fact that, in order to expand the functionality of the thermo-anemometer due to the possibility of using it as a thermistor microphone, it is equipped with a resonator chamber and a horn, while the resonator chamber is tightly connected to the throttle and the horn to the body thermo gag. Sources of information taken in. attention during examination 1. USSR author's certificate N 537301, cl. QOI P 5/12, 1976 (prototype).