SU1091044A1 - Device for measuring variable pressure pulse - Google Patents

Abstract

A DEVICE FOR MEASURING A PULSE OF A VARIABLE PRESSURE, containing a sensing element located on a supporting base, a moving body and a recording element. | f; ff .- “44; ji-jcf ,,.; ,, ,,, |: i о:.;: ,,,; ... | hz j I.:.-iv; -.: - ;. : ,, -if I .Г.:: distinguished by the fact that, in order to increase accuracy, in it the sensing element is made in the form of a membrane, the edges of which are hermetically connected to the supporting base to form the first cavity m & liquid, and the recording element is designed as a hollow rigid container communicating through a ball valve with the first cavity, a second membrane is inserted into the device, identical to the first one, the edges of which are tightly connected to the second supporting base to form the second cavity between them liquid filled through a second ball valve with a second rigid (L container, while the second membrane is placed in the cavity of the cup, hermetically connected to the second supporting base.

Description

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4 The invention relates to instrumentation, in particular to devices for measuring alternating pressure pulses. Devices for electrical measurement of a variable pressure pulse are known based on various physical principles, for example, resistive, capacitive, strain gage, piezoelectric. The principle of operation of these sensors is based on the development of an electric signal proportional to the pressure acting on the sensor. This signal can be recorded by a recording device in the form of an oscillogram for manual computation, or it is processed in special electronic circuits by the CED device of such devices for measuring an alternating pressure pulse. In order to obtain results with satisfactory accuracy, it is necessary to use relatively complex electronic circuits for converting, processing and recording signals from the sensor. Such schemes require highly skilled service and are often unsuitable for operational use in field conditions because of their cumbersomeness and exposure to external influences. The impulse meter based on energy measurements assigned by a piston consisting of a supporting device in which using a ball lock to hold the telescope piston, and a conical christian, reinforced at the bottom of the supporting structure. In this device, the piston is at the same time perceived as an element, and the crackler serves as a device for recording measurement results. The principle of the device is as follows: under the action of overpressure, the ball lock is activated and the piston further moves in the guides under the action of the shock wave. The fall time of the piston to cracker is longer than the time of alternating pressure. At the end of its movement, the piston strikes a conical crush with a blow, by the deformation of which the value of the acting impulse C 23 is judged. The aim of the invention is to improve the accuracy of measuring small values of a variable pressure pulse. This goal is achieved by the fact that in a device for measuring a pulse of alternating pressure, containing a sensing element located on a supporting base, a movable body and a recording element, the sensing element is made in the form of a membrane, the edges of which are tightly connected to the supporting base to form the first cavity between them, filled liquid, and the recording element is designed as a hollow rigid container communicating through the ball valve with the first cavity, the device is inserted into the device The diaphragm is identical to the first, the edges of which are hermetically connected to the second supporting base to form a second cavity between them, filled with liquid, connected through a second ball valve to a second rigid container, while the second membrane is placed into the cavity of the glass, hermetically connected to the second supporting base . The drawing shows the proposed device. The device consists of two membranes 1 and 2, two mobile bodies in a bidet of liquids 3 and 4, two supporting bases 5 and 6, two rigid hollow containers 7 and 8, which communicate with their feed capacities of the backed membrane 1 with the supporting base 5 and diaphragm 2 with supporting base 6, respectively) by means of valves 9 and 10. Valves 9 and 10 have locking balls 11 and 12 and drain holes 13,14 and 15,16. The elastic membrane 2 is protected by a casing 17. The device operates as follows. The device is mounted in the zone of impact of an alternating pressure, for example, an air shock wave, so that the consumable tanks with moving bodies in the form of liquids 3 and 4 are located above the hollow tanks 7 and 8. In this case, fluids 3 and 4 through the valves 9 and 10 (in this position, the valves are open) in the hollow tanks 7 and 8. When an alternating air shock pressure is applied to the elastic membrane 1, the flow rate of fluid 3 through valve 9 varies depending on the magnitude of the effect. The outflow of fluid 4 through the valve 10 into the hollow tank 8 occurs at a constant speed, since the elastic membrane 2 is protected from external influence of the air shock wave by the casing 17. After the air shock wave passes, the device is removed from the place of attachment and turned over so that the hollow tanks 7 and 8 are located above the expendables, and the locking balls 10 11 and 12 overlap the holes 13 and 15. The magnitude of the impulse of the acting shock wave is judged by the mass difference of the liquid that has flowed into the hollow tanks 7 and 8. This difference is determined By weighing the containers 7 and 8. At the same time, the beginning of the outflow of fluid from the consumable tanks to the receiving 7 and 8 is ensured by their rigid coaxial fastening. The proposed pulser allows measuring small pulses (25 kgf / mb with an accuracy of 1-2%).

Claims (1)

DEVICE FOR MEASURING VARIABLE PRESSURE PULSE, containing a receiving element located on the supporting base, a movable body and a recording element, characterized in that, in order to improve accuracy, the receiving element is made in the form of a membrane, the edges of which are hermetically connected to the supporting base with the formation of the first the cavity between them, filled with liquid, and the recording element is made in the form of a hollow rigid container, communicating through a ball valve with the first cavity, to the device a second membrane is introduced, identical to the first, the edges of which are hermetically connected to the second supporting base with the formation of a second cavity between them, filled with fluid connected through a second ball valve with a second rigid container, while the second membrane is placed in the cavity of the glass, hermetically connected to second supporting base. SU .. „1091044>